Patent application number | Description | Published |
20090037033 | Autonomous Behaviors for a Remote Vehicle - A system for allowing an operator to switch between remote vehicle tele-operation and one or more remote vehicle autonomous behaviors. The system comprises: an operator control unit receiving input from the operator including instructions for the remote vehicle to execute an autonomous behavior; a control system on the remote vehicle for receiving the instruction to execute an autonomous behavior from the operator control unit; and a GPS receiver, an inertial measurement unit, and a navigation CPU on the remote vehicle. Upon receiving the instruction to execute an autonomous behavior, the remote vehicle executes that autonomous behavior using input from the GPS receiver, the inertial measurement unit (IMU), and the navigation CPU. | 02-05-2009 |
20100139995 | Mobile Robotic Vehicle - A mobile robot includes a robot chassis having a forward end, a rearward end and a center of gravity. The robot includes a driven support surface to propel the robot and first articulated arm rotatable about an axis located rearward of the center of gravity of the robot chassis. The arm is pivotable to trail the robot, rotate in a first direction to raise the rearward end of the robot chassis while the driven support surface propels the chassis forward in surmounting an obstacle, and to rotate in a second opposite direction to extend forward beyond the center of gravity of the robot chassis to raise the forward end of the robot chassis and invert the robot endwise. | 06-10-2010 |
20110180334 | MOBILE ROBOTIC VEHICLE - A mobile robot includes a robot chassis having a forward end, a rearward end and a center of gravity. The robot includes a driven support surface to propel the robot and first articulated arm rotatable about an axis located rearward of the center of gravity of the robot chassis. The arm is pivotable to trail the robot, rotate in a first direction to raise the rearward end of the robot chassis while the driven support surface propels the chassis forward in surmounting an obstacle, and to rotate in a second opposite direction to extend forward beyond the center of gravity of the robot chassis to raise the forward end of the robot chassis and invert the robot endwise. | 07-28-2011 |
20120011992 | REMOTE DIGITAL FIRING SYSTEM - A remote digital firing system for selectively firing a plurality of remote mission payloads. The remote digital firing system includes a first set of firing circuits communicatively coupled to and operative to fire a corresponding first set of remote mission payloads and a second set of firing circuits communicatively coupled to and operative to fire a corresponding second set of remote mission payloads. The remote digital firing system includes a firing control panel communicatively linked to the first and second sets firing circuits, a first digital code plug configured to be integrated in communicative combination with each firing circuit of the first set and the firing control panel, a second digital code plug configured to be integrated in communicative combination with each firing circuit of the second set and the firing control panel, and a payload selector switch for selecting a remote mission payload. | 01-19-2012 |
20120097461 | MOBILE ROBOTIC VEHICLE - A mobile robot includes a robot chassis having a forward end, a rearward end and a center of gravity. The robot includes a driven support surface to propel the robot and first articulated arm rotatable about an axis located rearward of the center of gravity of the robot chassis. The arm is pivotable to trail the robot, rotate in a first direction to raise the rearward end of the robot chassis while the driven support surface propels the chassis forward in surmounting an obstacle, and to rotate in a second opposite direction to extend forward beyond the center of gravity of the robot chassis to raise the forward end of the robot chassis and invert the robot endwise. | 04-26-2012 |
20120200149 | RESILIENT WHEEL ASSEMBLIES - A wheel assembly for a remote vehicle comprises a wheel structure comprising a plurality of spokes interconnecting a rim and a hub. The spokes comprise at least one slit extending therethrough radially inward from the rim to the hub. The wheel assembly also comprises a flipper structure comprising an arm, a plurality of legs, and an attachment base. The plurality of legs and the attachment base comprise a four-bar linkage. The wheel assembly further comprises an insert comprising a bore with a flat surface that tapers outward from a top portion of the insert to a bottom portion of the insert. The insert may be configured to couple the flipper structure to the wheel structure via an axle on the remote vehicle and prevent backlash between the axle and the flipper structure. The flipper structure may be configured to transmit axial forces to the wheel structure. The wheel structure may be configured to absorb radial and axial forces. | 08-09-2012 |
20120281829 | REMOTE DIGITAL FIRING SYSTEM - A remote digital firing system for selectively firing a plurality of remote mission payloads. The remote digital firing system includes a first set of firing circuits communicatively coupled to and operative to fire a corresponding first set of remote mission payloads and a second set of firing circuits communicatively coupled to and operative to fire a corresponding second set of remote mission payloads. The remote digital firing system includes a firing control panel communicatively linked to the first and second sets firing circuits, a first digital code plug configured to be integrated in communicative combination with each firing circuit of the first set and the firing control panel, a second digital code plug configured to be integrated in communicative combination with each firing circuit of the second set and the firing control panel, and a payload selector switch for selecting a remote mission payload. | 11-08-2012 |
20130256042 | MOBILE ROBOTIC VEHICLE - A mobile robot includes a robot chassis having a forward end, a rearward end and a center of gravity. The robot includes a driven support surface to propel the robot and first articulated arm rotatable about an axis located rearward of the center of gravity of the robot chassis. The arm is pivotable to trail the robot, rotate in a first direction to raise the rearward end of the robot chassis while the driven support surface propels the chassis forward in surmounting an obstacle, and to rotate in a second opposite direction to extend forward beyond the center of gravity of the robot chassis to raise the forward end of the robot chassis and invert the robot endwise. | 10-03-2013 |
20140231156 | MOBILE ROBOTIC VEHICLE - A mobile robot includes a robot chassis having a forward end, a rearward end and a center of gravity. The robot includes a driven support surface to propel the robot and first articulated arm rotatable about an axis located rearward of the center of gravity of the robot chassis. The arm is pivotable to trail the robot, rotate in a first direction to raise the rearward end of the robot chassis while the driven support surface propels the chassis forward in surmounting an obstacle, and to rotate in a second opposite direction to extend forward beyond the center of gravity of the robot chassis to raise the forward end of the robot chassis and invert the robot endwise. | 08-21-2014 |