TERM LORD ZEN AKU DOES

Brand Owner Address Description
LORD ZEN-AKU BVS ENTERTAINMENT, INC. 10960 Wilshire Boulevard Los Angeles CA 90024 The term LORD ZEN-AKU does not identify a living individual.;Toys, games, playthings, and sporting goods, namely, bendable play figures; toy action figures and accessories therefor; toy banks; toy watches; bath tub toys; children's multiple activity toys; toy magic tricks; water squirting toys; wind-up toys; sling shots; audio and visual toys, namely, talking dolls, toy 3-D viewers and reels; mechanical action toys; battery-operated action toys; dolls, puppets; playsets for dolls, doll clothing and costumes; role playing games; action-type target shooting game sets comprising toy gun, toy suction darts and target; toy weapons; toy squirt guns; kites; paper and plastic party favors in the nature of small toys and noisemakers; balloons; stuffed and plush toys; latex squeeze toy figures; musical toys; inflatable bath toys; inflatable swimming toys; toy vehicles; ride-in toys; mobiles for children; Christmas tree ornaments; toy hobby craft kits comprising molds and molding compound for making toy figures; plastic action figure models;
 

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

    
Technical Examples
  1. A turbo decoder employs max* term or max term maximum a priori (MAP) decoding of received, encoded data. Initially, MAP decoding is iterative and employs max* term computation of log-likelihood values at each iteration. Max* term computation includes computation of a max term and a logarithmic correction term. A bypass algorithm switches from max* term computation to only max term computation in later iterations with little or no degradation in decoder performance. The iteration selected for switching may be based on increasing intrinsic signal-to-noise ratio (SNR) of the iterative MAP decoding. Since, in general, fewer computations are required for max term computation than for max* term computation, switching between max* and max allows for reduced power consumption of a particular decoder implementation.