Athletic performance monitoring systems include GPS data to enhance various features of the workout as well as the post-workout data analysis. Such features include using output from multiple sensors to determine the most accurate data available for providing distance measurements for individual segments of a route. The most accurate data for each route segment, from whatever source, then is used to provide the overall route distance and as the basis for making other calculations, such as pace, calorie burn, etc. Another feature relates to the ability to both input and output geographically tagged messages while moving along a route during an athletic performance.

Systems and techniques for the collection and display of athletic information. Athletic data relating to a single person or group of people is collected at a central location, and subsequently displayed at a desired remote location so that the person or people can review and critique their performance. In addition, athletic data for multiple persons can be collected at a central location, and subsequently displayed to a user at a desired remote location, so that the user can compare his or her athletic activities to others.

Systems and techniques for the collection and display of athletic information. Athletic data relating to a single person or group of people is collected at a central location, and subsequently displayed at a desired remote location so that the person or people can review and critique their performance. In addition, athletic data for multiple persons can be collected at a central location, and subsequently displayed to a user at a desired remote location, so that the user can compare his or her athletic activities to others.

A computer system and computer-automated method for analyzing sports performance data from a game. A data set is provided that contains a log of a first time sequence of game data events which are classified into event types. A second time sequence is generated from the first time sequence by aggregating the events into game patterns, and a third time sequence is generated by aggregating the game patterns into game strategies. A multi-level time sequence event hierarchy is thus created. These multiple time sequence levels are rendered into a visualization in which the different types at each level are visually distinct from each other. The visualization reveals to a game expert player or team behavior in the data set which can be used for player and team improvement.

According to an example aspect of the present invention, there is provided a method and system for determining and tracking an indoor position of an object, the method comprising: using a primary position indication, based on signals received from an external positioning system of at least two different positions of said object to calibrate tracking of a secondary position indication, which is an indoor position, and wherein the tracking of the secondary position comprises: recording acceleration data of a second part of the object, integrating said acceleration data, determining a characteristic position of the cyclically moving second part of the object in subsequent cycles, measuring a geomagnetic first orientation of the second part of the object in said characteristic position, determining the second direction of movement of the first part of the object, computing a velocity of the object in any direction based on the acceleration data, and determining the secondary position indication of said object based on said direction data and said velocity data.

According to an example aspect of the present invention, there is provided a method and system for determining and tracking an indoor position of an object, the method comprising: using a primary position indication, based on signals received from an external positioning system of at least two different positions of said object to calibrate tracking of a secondary position indication, which is an indoor position, and wherein the tracking of the secondary position comprises: recording acceleration data of a second part of the object, integrating said acceleration data, determining a characteristic position of the cyclically moving second part of the object in subsequent cycles, measuring a geomagnetic first orientation of the second part of the object in said characteristic position, determining the second direction of movement of the first part of the object, computing a velocity of the object in any direction based on the acceleration data, and determining the secondary position indication of said object based on said direction data and said velocity data.

A fencing training device including a bib, at least a portion of which comprises a material configured to provide an observable change in response to an external stimulus. Also provided is a fencing weapon that includes a handle and a blade with a tip that comprises a transferable material disposed thereon and a method of training a fencer.

According to an example aspect of the present invention, there is provided a method and system for tracking and determining a position of an object along a planned route, the method comprising: providing information of at least one predetermined route and determining a planned route based on the information of the at least one predetermined route; determining a primary position of the object based on at least one of: signals received from a satellite positioning system and the planned route; tracking a first position of the object via the satellite positioning system; and comparing whether the first position matches with the planned route. If the first position is found to deviate from the planned route, determining a secondary position of movement of the object based on measurements of at least one of: an inertia sensor and an acceleration sensor; wherein at least one of acceleration, speed and direction of the object is measured. Determining the secondary position indication of the object based on the first position and the secondary position of movement of the object; comparing whether the secondary position indication matches with at least one of: the planned route and the at least one predetermined route, and determining the current position of the object based on: at least one of: the at least one predetermined route and the planned route; and at least one of: the first position and the secondary position indication.

According to an example aspect of the present invention, there is provided a method and system for tracking and determining a position of an object along a planned route, the method comprising: providing information of at least one predetermined route and determining a planned route based on the information of the at least one predetermined route; determining a primary position of the object based on at least one of: signals received from a satellite positioning system and the planned route; tracking a first position of the object via the satellite positioning system; and comparing whether the first position matches with the planned route. If the first position is found to deviate from the planned route, determining a secondary position of movement of the object based on measurements of at least one of: an inertia sensor and an acceleration sensor; wherein at least one of acceleration, speed and direction of the object is measured. Determining the secondary position indication of the object based on the first position and the secondary position of movement of the object; comparing whether the secondary position indication matches with at least one of: the planned route and the at least one predetermined route, and determining the current position of the object based on: at least one of: the at least one predetermined route and the planned route; and at least one of: the first position and the secondary position indication.

Existence of instrumentation for automatic video recording creates an excess capacity of video recording for those who own automatic video recorders. Others may want to utilize this excess capacity to record their activities thus there is a need for a system that helps match those who would like to utilize the excess capacity with those who have such capacity. Such excess capacity is matched with demand to use such excess capacity by creating a network of automatic video recording units and tags that are associated with people who want to be recorded.