Patent application number | Description | Published |
20080263628 | MANAGING COMMUNICATIONS BETWEEN ROBOTS AND CONTROLLERS - The present disclosure is directed to a system and method for managing communications with robots. In some implementations, a computer network, where operators interface with the network to control movement of robots on a wireless computer network includes a network arena controller and a plurality of robot controllers. The network arena controller is configured to provide firewall policies to substantially secure communication between robot controllers and the associated robots. Each controller is included in a different robot and configured to wirelessly communicate with the network arena controller. Each robot controller executes firewall policies to substantially secure wireless communication. | 10-23-2008 |
20080269949 | SECURING COMMUNICATIONS WITH ROBOTS - The present disclosure is directed to a system and method for managing communications with robots. In some implementations, a computer network, where operators interface with the network to control movement of robots on a wireless computer network includes a network arena controller and a plurality of robot controllers. The network arena controller is configured to provide firewall policies to substantially secure communication between robot controllers and the associated robots. Each controller is included in a different robot and configured to wirelessly communicate with the network arena controller. Each robot controller executes firewall policies to substantially secure wireless communication. | 10-30-2008 |
20090218301 | UNIVERSAL RACK MOUNTABLE SHELF - A support and method for supporting equipment within a rack system regardless of its design is disclosed. The base of the support includes a surface capable of supporting the equipment reducing unintended movement of the equipment. Brackets capable of being securely attached to the rack system, regardless of whether it is two-post or four-post in design, are associated with the base of the support. The method of the present invention comprises the steps of selecting a design of rack system, attaching the support of the present system, and placement of the equipment to be supported. | 09-03-2009 |
20110028069 | VIBRATION POWERED TOY - An apparatus includes a body, an eccentric load, a rotational motor coupled to the body and adapted to rotate the eccentric load, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. At least a portion of the plurality of legs are constructed from a flexible material, are injection molded, are integrally coupled to the body at the leg base, and include at least one driving leg configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 02-03-2011 |
20110076914 | Vibration Powered Toy - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 03-31-2011 |
20110076916 | Vibration Powered Toy - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 03-31-2011 |
20110076917 | Vibration Powered Toy - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 03-31-2011 |
20110076918 | Vibration Powered Toy - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 03-31-2011 |
20110111671 | Display Case for Vibration Powered Device - An apparatus includes a fixed base, a platform supported by the fixed base, and a mechanism for causing vibration coupled to the platform and adapted to induce vibration of the platform sufficient to cause a vibration-powered vehicle to move across the platform without relying on an internal power supply of the vehicle. In some cases, a substantially planar cover is situated approximately parallel to the platform and spaced apart from the platform at a great enough distance to allow the vibration-powered vehicle to move across the platform and at a low enough distance to deter the vibration-powered vehicle from turning over. | 05-12-2011 |
20110117814 | HABITAT FOR VIBRATION POWERED DEVICE - A playset system for autonomous devices includes a communal area including a substantially horizontal and substantially planar area bounded by a plurality of side walls, a plurality of connectors, and a plurality of ports. Each port is disposed in a side wall, each port is situated adjacent to one of the connectors, and each port includes a gate adapted to open and close, to impede movement of the autonomous devices when closed, and to allow passage of the autonomous devices when open. | 05-19-2011 |
20120015585 | Vibration Powered Toy - An apparatus includes a body, an eccentric load, a rotational motor coupled to the body and adapted to rotate the eccentric load, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. At least a portion of the plurality of legs are constructed from a flexible material, are injection molded, are integrally coupled to the body at the leg base, and include at least one driving leg configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 01-19-2012 |
20120080533 | Modular Track for Autonomous Vehicles - An apparatus includes modular track sections adapted to be assembled into a track for autonomous vehicles. The track is configured such that the vehicles tend to stay on the track and that allows the autonomous vehicles to enter and exit the track from at least one side of the track. | 04-05-2012 |
20120178339 | Moving Attachments for a Vibration Powered Toy - An apparatus includes an appendage rotatably coupled to a body of a device adapted to move based on internally induced vibration of the device. The appendage can be attached directly to the body of the device or to a frame that is adapted to releasably attach to the device. The appendage is adapted to rotate about an axis of rotation as vibration induces motion of the device. The device can include a body, an eccentric load, a rotational motor coupled to the body and adapted to rotate the eccentric load, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. At least one driving leg configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 07-12-2012 |
20120178340 | Moving Attachments for a Vibration Powered Toy - An apparatus includes an appendage rotatably coupled to a body of a device adapted to move based on internally induced vibration of the device. The appendage can be attached directly to the body of the device or to a frame that is adapted to releasably attach to the device. The appendage is adapted to rotate about an axis of rotation as vibration induces motion of the device. The device can include a body, an eccentric load, a rotational motor coupled to the body and adapted to rotate the eccentric load, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. At least one driving leg configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 07-12-2012 |
20120264341 | Vibration-Powered Floating Object - A vibration-powered device adapted for flotation and propulsion on an upper surface in a liquid. The device having a body with a top side adapted to be at least partially disposed above the surface of the liquid, and a bottom side adapted to be at least partially submerged below the surface of the liquid. A vibration mechanism is disposed in the body. A propulsion fin is connected to the body. The fin includes a top side adapted to be disposed at least partially above the liquid surface, a bottom side adapted to be disposed at least partially below the surface. The vibration mechanism is adapted to oscillate the free distal end of the propulsion fin upward and downward. | 10-18-2012 |
20130084771 | Autonomous Bobble Head Toy - An apparatus includes a base, a drive mechanism attached to the base for causing the base to move across a support surface, a bobble head rotatably coupled to the base and rotatable about at least one axis, and a vibrating mechanism adapted to cause the bobble head to oscillate about at least one axis. | 04-04-2013 |
20130084773 | Autonomous Bobble Head Toy - An apparatus includes a base, a drive mechanism attached to the base for causing the base to move across a support surface, a bobble head rotatably coupled to the base and rotatable about at least one axis, and a vibrating mechanism adapted to cause the bobble head to oscillate about at least one axis. | 04-04-2013 |
20130084774 | AUTONOMOUS VEHICLE SYSTEM - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 04-04-2013 |
20130084775 | Autonomous Vehicle System - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 04-04-2013 |
20130090037 | MOVING ATTACHMENTS FOR A VIBRATION POWERED TOY - An apparatus includes a housing, a rotational motor situated within the housing, an eccentric load adapted to be rotated by the rotational motor, and a plurality of legs each having a leg base and a leg tip at a distal end relative to the leg base. The legs are coupled to the housing at the leg base and include at least one driving leg constructed from a flexible material and configured to cause the apparatus to move in a direction generally defined by an offset between the leg base and the leg tip as the rotational motor rotates the eccentric load. | 04-11-2013 |
20130149935 | COMPONENTS FOR RAPIDLY CONSTRUCTING A USER-DEFINABLE APPARATUS - Mechanical and electromechanical components for rapidly constructing a user-definable apparatus may include components that are reconfigurable into other construction set components, and that have at least one demarcation defining adjacent segments thereof. The demarcations facilitate reconfiguration of the components to produce other construction set components. Openings to substantially prevent sharp edges from being formed during reconfiguration may be included in the components. An electromechanical drive assembly having an integrated speed control and operable to receive interchangeable, non-circular drive shafts may be provided. The electromechanical drive assembly may he configured to attach to and self-align relative to other construction set components. One or more of the components may he provided with openings through which the non-circular drive shafts may rotate. The drive shaft may be locked in relation to openings of components that, allow the drive shaft to rotate via a lock plate. A bearing plate may also be included. | 06-13-2013 |
20130171910 | Climbing Vibration-Driven Robot - An apparatus includes a housing, a rotational motor situated within the housing, a vibrating mechanism, and a plurality of appendages each having an appendage base proximal to the housing and an appendage tip distal from the housing. One or more of the appendages are adapted to cause the apparatus to move across a surface in a forward direction generally defined by a longitudinal offset between the appendage base and the appendage tip, and the appendages include two or more appendages disposed such that the appendage tips of the two or more appendages are adapted to contact opposing surfaces to produce a net force in a direction generally defined by a longitudinal offset between the appendage base and the appendage tip of the two or more appendages as the vibrating mechanism causes the apparatus to vibrate. The net force can allow the apparatus to climb when the opposing surfaces are inclined. | 07-04-2013 |
20140024288 | CLIMBING VIBRATION-DRIVEN ROBOT - An apparatus includes a housing, a rotational motor situated within the housing, a vibrating mechanism, and a plurality of appendages each having an appendage base proximal to the housing and an appendage tip distal from the housing. One or more of the appendages are adapted to cause the apparatus to move across a surface in a forward direction generally defined by a longitudinal offset between the appendage base and the appendage tip, and the appendages include two or more appendages disposed such that the appendage tips of the two or more appendages are adapted to contact opposing surfaces to produce a net force in a direction generally defined by a longitudinal offset between the appendage base and the appendage tip of the two or more appendages as the vibrating mechanism causes the apparatus to vibrate. The net force can allow the apparatus to climb when the opposing surfaces are inclined. | 01-23-2014 |
20140057525 | Ambulatory Toy - An ambulatory toy includes a body; a drive mechanism coupled to the body; a plurality of leg members coupled to the drive mechanism, each of the leg members having a distal end disposed downwardly in a first position and adapted to contact a support surface; and a self-righting member coupled to at least one of the legs. The self-righting member adapted to move the distal ends of the legs of the toy from a second position to the first downwardly disposed position. The method of self-righting using the self-righting member coupled to the leg. | 02-27-2014 |
20140094088 | Imitating Serpentine Motion In A Mechanical Figure - In one embodiment there is provided a mechanical device capable of mimicking a serpentine motion. The mechanical device includes a plurality of segmented portions interconnected consecutively at pivoted junctions. A rotational motor and an eccentric weight are secured about one segmented portion and at least one pair of legs extends from a segmented portion towards a contact surface and causes the segmented portion to move in a direction defined as the rotational motor rotates the eccentric weight. The additional segmented portions following the segmented leg portion follow in a serpentine motion as these portions rock and pivot to counter-balance the undulation caused by the segmented leg portion. | 04-03-2014 |