Providing interaction with media content includes broadcasting media content to a display device, associating a downloadable fitness program with the media content with synchronization indicators to synchronize the downloadable fitness program with the media content, and controlling an operational parameter of an exercise machine based on physical characteristics of an environment depicted in the media content.

The invention relates to a measuring arrangement (1) for testing skis and snowboards (2) or sports equipment with a planar contact surface, the arrangement comprising a sensor device, onto which at least one ski or snowboard (2) or piece of sports equipment can be laid. The sensor device has a sensor surface (3) which is predominantly sub-divided in a longitudinal and transverse direction into a plurality of sensor-surface sections (4), each of said sensor-surface sections (4) having at least one force sensor which outputs the force acting on the sensor-surface section (4) as an electrical signal that is evaluated by a computer unit (5).

The invention relates to a sports boot for the pursuit of ski sport. The sports boot comprises a sensor arrangement (29) having several pressure-sensitive sensors (9a-d) in a distributed layout which are respectively connected or can be connected via cable connections (17a-d) to an electronic signal processing device. At least one first sensor (9a) is positioned in a forefoot portion (31) of the sole arrangement (30) of the sports boot and at least one second sensor (9b) is positioned in a heel portion (32) of the sole arrangement (30). A first cable connection (17a) between the at least one first sensor (9a) and the electronic signal processing device and a second cable connection (17b) between the at least one second sensor (9b) and the electronic signal processing device are respectively starting from the at least one first sensor (9a) and from the at least one second sensor (9b) and each run in the direction towards a sole center region (34) of the sole arrangement (30). The first and second cable connection (17a, 17b) then run out from the sole center region (34) via the heel portion (35) in the direction towards the upper boot portion (28) in which the signal processing device is positioned or can be positioned.

The invention relates to a sports boot for the pursuit of ski sport. The sports boot comprises a sensor arrangement (29) having several pressure-sensitive sensors (9a-d) in a distributed layout which are respectively connected or can be connected via cable connections (17a-d) to an electronic signal processing device. At least one first sensor (9a) is positioned in a forefoot portion (31) of the sole arrangement (30) of the sports boot and at least one second sensor (9b) is positioned in a heel portion (32) of the sole arrangement (30). A first cable connection (17a) between the at least one first sensor (9a) and the electronic signal processing device and a second cable connection (17b) between the at least one second sensor (9b) and the electronic signal processing device are respectively starting from the at least one first sensor (9a) and from the at least one second sensor (9b) and each run in the direction towards a sole center region (34) of the sole arrangement (30). The first and second cable connection (17a, 17b) then run out from the sole center region (34) via the heel portion (35) in the direction towards the upper boot portion (28) in which the signal processing device is positioned or can be positioned.

A method allowing the synchronizing collection of motion and ground reaction forces data at the start of a sporting event which are received from motion and force sensors embedded in insoles worn in the user's footwear. Furthermore, this method allows synchronization of said data with video or television transmission, and if used during, for example, during ski racing, provides information of skis' pitch, roll and heading in a 3-D space, as well as linear and angular velocity, g-forces, and the location and distribution of pressure points and ground reaction forces transferred to the user's feet in a numerical or a graphical form.

A method for providing feedback to a skier, comprising: receiving, by a feedback computer, sensor data from a plurality of sensors associated with the skier, the sensor data representing a movement of the skier during a ski run; receiving, by the feedback computer, video data representing a video recording of the skier during the ski run; after the ski run, synchronizing, by the feedback computer, the sensor data and the video data; and simultaneously displaying, on a display screen in electrical communication with the feedback computer, the video recording and the sensor data.

A grip adjustment system comprising: a sleeve positionable, in use, on an object configured to be gripped by a user. The system also comprises a distributed array of actuators, each actuator being arranged to actuate a respective portion of the sleeve between a first position and a second position in response to an actuation signal; and a processor. The processor is operable to: receive a pressure distribution and an event quality indicator corresponding to an event of interest; determine an optimal grip based on the pressure distribution and the event quality indicator; select an actuator, of the distributed array of actuators, to be actuated based on the optimal grip; transmit the actuation signal to the actuator such that the shape of the sleeve is changed and the grip of the user is adjusted.

The invention relates to a method for detecting and calculating the duration of a jump effected by an individual, comprising the following steps: Detection of a moment associated with a landing following the jump, this step comprising a sub-step of detecting an acceleration peak of an amplitude greater than a first threshold amplitude, within the acceleration measurements provided by a three-axis accelerometer, on board a watch worn on the wrist of the individual. Detection of a jump phase, by detection, in a temporal window finishing at the moment of landing, of a succession of acceleration measurements between 0 g and 0.5 g during a duration greater than a first threshold duration.

The invention relates to a method for detecting and calculating the duration of a jump effected by an individual, comprising the following steps: Detection of a moment associated with a landing following the jump, this step comprising a sub-step of detecting an acceleration peak of an amplitude greater than a first threshold amplitude, within the acceleration measurements provided by a three-axis accelerometer, on board a watch worn on the wrist of the individual. Detection of a jump phase, by detection, in a temporal window finishing at the moment of landing, of a succession of acceleration measurements between 0 g and 0.5 g during a duration greater than a first threshold duration.

The invention relates to a sensor apparatus, comprising: a sensor unit, a wireless communication unit configured to directly or indirectly transmit and receive data to and from an external source, and means for receiving identification information from a sports item while being attached to the sports item, wherein the apparatus is initiate identification of the sports item in response to a trigger from an identification activation element in the sports item.