Various embodiments facilitate location-aware distributed competitions. In one embodiment, a system facilitates a distributed sporting event that includes multiple players traveling over non-uniform courses that are remote from one another. The system includes a manager that receives state information, such as location information, from client devices used by each of the players. The manager then transmits location information for each of the players to the client devices, which are each configured to present a graphical representation, such as a map annotated with the locations of each of the players. The system corrects for disparities between the non-uniform courses traveled by the players, for example by mapping a location on a course traveled by a first player to a location on a course traveled by a second player. Various mechanisms for establishing the mapping between non-uniform courses are also described.

Various embodiments facilitate location-aware distributed competitions. In one embodiment, a system facilitates a distributed sporting event that includes multiple players traveling over non-uniform courses that are remote from one another. The system includes a manager that receives state information, such as location information, from client devices used by each of the players. The manager then transmits location information for each of the players to the client devices, which are each configured to present a graphical representation, such as a map annotated with the locations of each of the players. The system corrects for disparities between the non-uniform courses traveled by the players, for example by mapping a location on a course traveled by a first player to a location on a course traveled by a second player. Various mechanisms for establishing the mapping between non-uniform courses are also described.

Disclosure in this specification is of a greyhound lure support carrier engageable with a support track is located about a greyhound racing track. The support carrier is engageable and disengageable from the track in one example, the carrier housing supports multiple wheels some of which are in constant contact with the track to drive the carrier housing along the track and other wheels are free-wheeling guides along the track and to ensure the carrier housing stays on the track. The support carrier comprises a chassis accommodating, a battery to supply electric power; an electric motor having an axle, the electric motor operatively connected to the battery, and to drive the rotation of an axle; a rotatable friction arrangement connected to a driven axle and located so as to frictionally engage with the support track. There is a suspension arrangement moveable against a portion of the support track to permit suspension of the chassis from the support track. There is also a wireless communication receiver for receiving a signal for operating application of electric power to the electric motor. An electric motor control module is in operative connection to the wireless communication receiver and operable to the electric motor. A lure arrangement is attachable to the carrier for attracting greyhounds as the carrier is controlled in its travel about the track.

Disclosure in this specification is of a greyhound lure support carrier engageable with a support track is located about a greyhound racing track. The support carrier is engageable and disengageable from the track in one example, the carrier housing supports multiple wheels some of which are in constant contact with the track to drive the carrier housing along the track and other wheels are free-wheeling guides along the track and to ensure the carrier housing stays on the track. The support carrier comprises a chassis accommodating, a battery to supply electric power; an electric motor having an axle, the electric motor operatively connected to the battery, and to drive the rotation of an axle; a rotatable friction arrangement connected to a driven axle and located so as to frictionally engage with the support track. There is a suspension arrangement moveable against a portion of the support track to permit suspension of the chassis from the support track. There is also a wireless communication receiver for receiving a signal for operating application of electric power to the electric motor. An electric motor control module is in operative connection to the wireless communication receiver and operable to the electric motor. A lure arrangement is attachable to the carrier for attracting greyhounds as the carrier is controlled in its travel about the track.

A method for the continuous ranking of a competitor during a race of a slalom skiing type sports discipline includes the following iterative steps: a step of measuring the variation in the lateral angle of the gliding board about a predefined axis, a step of detecting the moment when the angle passes through a predefined value, a step of recording the competitor's run time corresponding to the detected moment, a step of comparing the stored run time with those of the preceding competitors for the corresponding detected moment, and a step of ranking the competitor with respect to the preceding competitors as a function of the run time of each competitor. A ranking system implements the method.

A method for the continuous ranking of a competitor during a race of a slalom skiing type sports discipline includes the following iterative steps: a step of measuring the variation in the lateral angle of the gliding board about a predefined axis, a step of detecting the moment when the angle passes through a predefined value, a step of recording the competitor's run time corresponding to the detected moment, a step of comparing the stored run time with those of the preceding competitors for the corresponding detected moment, and a step of ranking the competitor with respect to the preceding competitors as a function of the run time of each competitor. A ranking system implements the method.

An autonomous driving system for a vehicle (e.g. a racing car) is installed in the space normally allocated to a human driver and is attached to the pre-existing anchor points used for structures that are no longer needed once a human is no longer required, such as the crash protection anchor points. The autonomous driving system enables AI and robotics technology to be seamlessly integrated into existing high-performance race car designs without requiring significant design modifications to the vehicle. This invention enables a new era of motorsport, where for example human drivers in a Formula One car can compete against the same car controlled by an autonomous driving system, because the design integrity of all cars remain identical.

An autonomous driving system for a vehicle (e.g. a racing car) is installed in the space normally allocated to a human driver and is attached to the pre-existing anchor points used for structures that are no longer needed once a human is no longer required, such as the crash protection anchor points. The autonomous driving system enables AI and robotics technology to be seamlessly integrated into existing high-performance race car designs without requiring significant design modifications to the vehicle. This invention enables a new era of motorsport, where for example human drivers in a Formula One car can compete against the same car controlled by an autonomous driving system, because the design integrity of all cars remain identical.

To provide a pace setting system that can be constructed using only simple equipment at a low price, that has a high degree of freedom in terms of the installation location and applicable competition, and that can be used casually. A pace setting system that presents, to an athlete 2, pace information pertaining to speed, wherein the system comprises: a plurality of smartphones 1a-1n having a communication function and an information output function; and a coordination control unit 11c that controls, via the communication function of each of the plurality of information processing terminals, the timing at which information is outputted from the information output function of each of the information processing terminals. The coordination control unit 11c, which can accommodate a plurality of athletes, outputs pace information that corresponds to a speed setting for each of the athletes, the pace information being outputted at a timing corresponding to each moving body.

A system for judging or determining position or posture, and/or a time on a line crossed by at least one competitor or racer in a sporting competition, includes at least an apparatus for taking a photograph when an intermediate line or a finishing line of the competition is crossed, the image of the photofinish type taken defining an input of the system, and a processing unit connected to the photographic apparatus to combine the photofinish image received with a processing of an algorithm using artificial intelligence for automatically placing one or more cursors on the photofinish image.