Method and apparatus for location of objects, and...

Games using tangible projectile – Playing field or court game; game element or accessory...

Reexamination Certificate

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Details

C463S039000

Reexamination Certificate

active

06824480

ABSTRACT:

CROSS REFERENCE RELATED APPLICATIONS
Not Applicable
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH
Not Applicable
REFERENCE TO SEQUENCE LISTING
Not Applicable
BACKGROUND OF THE INVENTION
The present invention is directed to a system for locating moving or stationary objects. In many types of sports (for example, football, golf, or baseball) the precise position of the ball or other piece is crucial to the play of the game but may be difficult for the players and/or officials to locate quickly and precisely, or, in the case of spectator sports, difficult for the spectators to ascertain conveniently. The invention describes a system which allows a precise, three-dimensional location of a moving or stationary object within an area of interest.
The determination can be updated repeatedly and rapidly to create a real time display of the objects' location as it changes with time. As an example, the system could be used to provide a display of a football's location on a playing field even when the ball is obstructed or hidden. Such a system could be useful to enhance spectators' interest in and understanding of the game, aid the referees in determining when a first down had occurred, or aid in training both players and referees.
The present invention is primarily directed to, the pinpoint locating of equipment and paraphernalia utilized in playing, scoring and officiating the game, as well as tracking the players, coaches and officials and the officials' equipment during the sporting event. The tracking of the officials' flags, markers, etc. will enhance the officiating by determining the exact location of the game ball, with respect to the out of bound lines, first down markers, goal line, field goal uprights, etc.
Furthermore, players and coaches are contemplated as being fitted with a sensor to determine their location on the field, their rate of movement, how high they are jumping etc. This information can be processed and provided to the viewers to enhance viewing pleasure on and off the playing site. For instance, a game announcer could be reviewing the real time data and provide the viewer with the information that the receiver is running at 27 feet per second while the trailing defensive back is only moving at 25.5 feet per second.
Another aspect of the present invention is to place sensor in the game ball to locate the ball. For instance in football, sensors would be placed in the nose portions of the ball and by using radio triangulation the precise three dimensional pinpoint location of the ball can be determined. This is especially important when the ball is being marked once a tackle is made. Since officials views are often blocked or obscured during a play, the precise location of the ball is difficult to determine. With the sensors in place, once the official blows the whistle the location of the ball can be marked, or frozen at that place and accurately marked for the next down.
The sporting event may be any sporting event, including but not limited to, football, baseball, golf, tennis, field hockey, ice hockey, soccer, basketball, or for that matter any of the events contested at the Olympics.
A wide variety of radiolocation techniques are available to determine the position of moving objects. Some of these techniques involve attaching or embedding a global positioning system (GPS) receiver or similar device within the object to be tracked, and then transmitting a message containing the objects location. Due to the complexity, size and power consumption of the receiver these techniques necessarily add substantial weight, which will often be unacceptable and objectionable in the case of a ball used in sports.
Other techniques attach a simpler transmitter to the object to be tracked, and then use direction finding receivers to locate the object. There are several variations on this technique. Some include triangulation using two or more direction finding (nulling type) antennas, either mechanically or electronically steered. Such systems require either mechnical motion of the direction finding antennas, which decreases reliability and may be distracting for participants and spectators, or electronic phasing, which is more reliable but requires complex electronic circuitry. In addition, a high level of accuracy is most useful in most sports applications. For example, in the case of a football, it would be desirable to be able to determine the ball's position to within one inch (2.5 cm) in an area over three hundred feet (one hundred meters) long. This requires angular direction finding with an accuracy of two arc minutes or better, a very difficult task.
Other systems operate by using a pulsed transmitter, and then measuring the time delay for the signal to arrive at three or more receiving locations. These systems require very precision timing circuitry to locate objects with the accuracy that would be needed to make a system most useful in sports applications. For the example above, in which a football is to be located to within one inch (2.5 centimeters), the time-of-arrival circuitry would need to be accurate to 0.05 nanoseconds or less.
The apparatus described here does not require any form of receiver on or in the object to be tracked; do not utilize any steered antennas; and does not need precision timing circuitry. Three dimensional location can be obtained using only a simple, transmitter on the object to be tracked along with two (or more) pairs of antennas with receivers distributed around the perimeter of the area within which the object is to be tracked. The system measures the phase shift in the arrived signal within each closely spaced pair of antennas to obtain three (or more) direction vectors that give a coarse position of the object. The fine position of the object is then resolved by measuring the phase shift in the arrived signal between widely spaced pairs of elements. At very high frequencies (VHF) a phase measurement accuracy of 1-2 degrees is sufficient to give the required accuracy in the determination of the object's location.
SUMMARY OF THE INVENTION
As explained in the previous section, currently, in football games, viewer enjoyment of the game as well as the officiating is affected by the inability to know the precise location of the ball because the ball is often hidden by the players in the field. Similarly, in golf, the player chooses the club based on an approximate estimation of the current position. Precise identification of the ball's location and distance from the cup can help the golf player to devise appropriate strategy and utilize the proper golf club. This information can also be used to graphically display the position of the ball with respect to different holes on the golf course in a large display screen or on a handheld device used by the spectators inside or outside the golf course.
The present invention is capable of displaying the location data in real time such as player location, speed, etc. and the precise location of the game ball. All of this information is capable of being displayed on the stadium screens at the sporting event site and on viewers' screens offsite. The data can is capable of being displayed on the screen as the event takes place and toggled on and off at the viewers discretion. The invention is capable of allowing the viewer to modify location of the data on the screen and to modify and edit the amount and the way in which the data presented.
The sensors placed in the game ball emit radio, magnetic or similar waves, and are located by triangulation. A minimum of three receivers are required to precisely locate the position of the game ball in three dimensions. The speed and direction of the game ball and players can also be determined by present invention. The present invention is capable of tracking multiple sensors and providing data regarding their exact position in the x, y and z directions and their relative position and speed to other players or objects fitted with the sensors.
The present invention is also capable of eliminating or selectively t

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