SOCCER TRAINING MACHINE

Brand Owner (click to sort) Address Description
SIDEKICK Seattle Sport Sciences, Inc. 24066 NE 53rd Place Redmond WA 98053 soccer training machine, namely, a [ manually and automatically fed ] sports ball [ feeder and ] server for accelerating and delivering sports balls with user determined trajectory, speed, spin, and distance [ with a ball returning mechanism and an electronic target that registers and records ball contact with the target ];SIDE KICK;
SIDEKICK HOTSHOT Seattle Sport Sciences, Inc. 24066 NE 53rd Place Redmond WA 98053 Soccer training machine, namely, a manually and automatically fed sports ball feeder and server for accelerating and delivering sports balls with user determined trajectory, speed, spin, and distance with a ball returning mechanism and an electronic target that registers and records ball contact with the target; ball serving system for serving sports balls at user selected trajectory and speed; automated ball serving system for serving sports balls, recording any served balls that contact a target when directed to the target by a player, and returning the served balls whether or not they have contacted the target or were contacted by the player;
SIDEKICK TECHNE Seattle Sport Sciences, Inc. 24066 NE 53rd Place Redmond WA 98053 Soccer training machine, namely, a manually and automatically fed sports ball feeder and server for accelerating and delivering sports balls with user determined trajectory, speed, spin, and distance with a ball returning mechanism and an electronic target that registers and records ball contact with the target; soccer training system; automated ball serving system for serving sports balls, recording any served balls that contact a target when directed to the target by a player, and returning the served balls whether or not they have contacted the target or were contacted by the player;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A method for training a support vector machine to determine a present state of charge of an electrochemical cell system includes choosing a training data, preprocessing the training data, finding an optimal parameter of the support vector machine, and determining support vectors.