Abstract: Batteries for an athletic activity monitoring device may be managed in both charged and discharged state to provide more accurate state information and/or expected charge times. Additionally or alternatively, various power management processes may be executed to maximize an amount of battery charge remaining.

Abstract: A wrist-worn device monitors movements of a user. A sensor assembly of the wrist-worn device is configured to detect movement of the user and generate sensor data based on the movement detected. A controller connected to the sensor assembly obtains movement data based on the sensor data. An antenna connected to the controller is configured to operate at a desired frequency when a wrist of the user is received by the device such that the movement data is wirelessly transmittable from the wrist-worn device to an electronic device. The antenna may exhibit a different design and configuration depending on the size of the wrist-worn device.

Abstract: Batteries for an athletic activity monitoring device may be managed in both charged and discharged state to provide more accurate state information and/or expected charge times. Additionally or alternatively, various power management processes may be executed to maximize an amount of battery charge remaining.

Abstract: Batteries for an athletic activity monitoring device may be managed in both charged and discharged state to provide more accurate state information and/or expected charge times. Additionally or alternatively, various power management processes may be executed to maximize an amount of battery charge remaining.

Abstract: Embodiments provide techniques for facilitating radio frequency (RF) communication between devices using guaranteed time slots (GTSs). Embodiments include designating, at a personal area network (PAN) coordinator, a contention access period (CAP) during which a plurality of devices on a network can transmit unsolicited media access control (MAC) commands to the PAN coordinator via RF communications. Embodiments further include facilitating direct RF communication between the plurality of devices, by broadcasting a beacon, at the PAN coordinator, designating GTSs for the plurality of devices, wherein each GTS specifies a time period during which one of the plurality of devices on the network is authorized to send or receive data.

Abstract: Systems, apparatuses, and methods estimate the distance between a player and a ball by transmitting a chirp (sweep signal) to a radio tag located on the ball. During the chirp, the frequency of the transmitted signal is changed in a predetermined fashion. The radio tag doubles the transmitted frequency and returns the processed signal to a transceiver typically located on the player. The currently transmitted frequency is then compared with the received frequency to obtain a difference frequency from which an apparatus may estimate the distance. The apparatus may simultaneously receive the processed signal from the radio tag while transmitting the sweep signal.

Abstract: A wrist-worn device monitors movements of a user. A sensor assembly of the wrist-worn device is configured to detect movement of the user and generate sensor data based on the movement detected. A controller connected to the sensor assembly obtains movement data based on the sensor data. An antenna connected to the controller is configured to operate at a desired frequency when a wrist of the user is received by the device such that the movement data is wirelessly transmittable from the wrist-worn device to an electronic device. The antenna may exhibit a different design and configuration depending on the size of the wrist-worn device.

Abstract: Systems, apparatuses, and methods estimate the distance between a player and a ball by transmitting a chirp (sweep signal) to a radio tag located on the ball. During the chirp, the frequency of the transmitted signal is changed in a predetermined fashion. The radio tag doubles the transmitted frequency and returns the processed signal to a transceiver typically located on the player. The currently transmitted frequency is then compared with the received frequency to obtain a difference frequency from which an apparatus may estimate the distance. The apparatus may simultaneously receive the processed signal from the radio tag while transmitting the sweep signal.

Abstract: Embodiments provide techniques for facilitating radio frequency (RF) communication between devices using guaranteed time slots (GTSs). Embodiments include designating, at a personal area network (PAN) coordinator, a contention access period (CAP) during which a plurality of devices on a network can transmit unsolicited media access control (MAC) commands to the PAN coordinator via RF communications. Embodiments further include facilitating direct RF communication between the plurality of devices, by broadcasting a beacon, at the PAN coordinator, designating GTSs for the plurality of devices, wherein each GTS specifies a time period during which one of the plurality of devices on the network is authorized to send or receive data.

Abstract: Systems, apparatuses, and methods estimate the distance between a player and a ball by transmitting a chirp (sweep signal) to a radio tag located on the ball. During the chirp, the frequency of the transmitted signal is changed in a predetermined fashion. The radio tag doubles the transmitted frequency and returns the processed signal to a transceiver typically located on the player. The currently transmitted frequency is then compared with the received frequency to obtain a difference frequency from which an apparatus may estimate the distance. The apparatus may simultaneously receive the processed signal from the radio tag while transmitting the sweep signal.

Abstract: Systems, apparatuses, and methods estimate the distance between a player and a ball by transmitting a chirp (sweep signal) to a radio tag located on the ball. During the chirp, the frequency of the transmitted signal is changed in a predetermined fashion. The radio tag doubles the transmitted frequency and returns the processed signal to a transceiver typically located on the player. The currently transmitted frequency is then compared with the received frequency to obtain a difference frequency from which an apparatus may estimate the distance. The apparatus may simultaneously receive the processed signal from the radio tag while transmitting the sweep signal.

Abstract: Systems, apparatuses, and methods estimate the distance between a player and a ball by transmitting a chirp (sweep signal) to a radio tag located on the ball. During the chirp, the frequency of the transmitted signal is changed in a predetermined fashion. The radio tag doubles the transmitted frequency and returns the processed signal to a transceiver typically located on the player. The currently transmitted frequency is then compared with the received frequency to obtain a difference frequency from which an apparatus may estimate the distance. The apparatus may simultaneously receive the processed signal from the radio tag while transmitting the sweep signal.