A robot which incorporates a body, arms with a hand grip, legs, several sensors, light elements, an audio system, and a video system. The sensors allows the robot to interact with objects in the room, and prevents the robot from traveling off an edge or bumping into obstacles. The light elements all
A robot which incorporates a body, arms with a hand grip, legs, several sensors, light elements, an audio system, and a video system. The sensors allows the robot to interact with objects in the room, and prevents the robot from traveling off an edge or bumping into obstacles. The light elements allow the robot to express moods. The audio system allows the robot to detect and transmit sounds. The video system allows a user to remotely view the area in front of the robot. Additionally, the robot may operate in a plurality of modes, including modes that allow the robot to operate autonomously. The robot may operate autonomously in an automatic mode, a security mode, a greet mode, and a monitor mode. Further, the robot is manipulated remotely.
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A robot which incorporates a body, arms with a hand grip, legs, several sensors, light elements, an audio system, and a video system. The sensors allows the robot to interact with objects in the room, and prevents the robot from traveling off an edge or bumping into obstacles. The light elements all
A robot which incorporates a body, arms with a hand grip, legs, several sensors, light elements, an audio system, and a video system. The sensors allows the robot to interact with objects in the room, and prevents the robot from traveling off an edge or bumping into obstacles. The light elements allow the robot to express moods. The audio system allows the robot to detect and transmit sounds. The video system allows a user to remotely view the area in front of the robot. Additionally, the robot may operate in a plurality of modes, including modes that allow the robot to operate autonomously. The robot may operate autonomously in an automatic mode, a security mode, a greet mode, and a monitor mode. Further, the robot is manipulated remotely. cent to the selected stacking unit, even if said another stacking unit is usable, when the adjacent stacking unit is not usable by other recording sheets which are different from the recording sheets of the job. 17. A control method for an image forming apparatus which is connectable to a sheet processing apparatus having a plurality of stacking units for stacking recording sheets, said control method being capable of selectively discharging the recording sheets to the plurality of stacking units, said control method comprising: a control step of controlling a discharge operation of remaining recording sheets of a job, if a selected stacking unit becomes nonusable during a discharge operation of the job, wherein said control step permits the discharge operation of the remaining recording sheets to an adjacent stacking unit which is adjacent to the selected stacking unit of the plurality of stacking units, and wherein said control step inhibits the discharge operation of the remaining recording sheets to another stacking unit of the plurality of stacking units, said another stacking unit is different from both of the selected stacking unit and the adjacent stacking unit, even if the another stacking unit is usable, when it is not the condition that the adjacent stacking unit is nonusable by other recording sheets which are d
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이 특허에 인용된 특허 (20)
Takenaka Toru,JPX ; Hasegawa Tadaaki,JPX ; Matsumoto Takashi,JPX, Controller for legged mobile robot.
White John R. (Oak Ridge TN) Satterlee ; Jr. Paul E. (Knoxville TN) Walker Kenneth L. (Clinton TN) Harvey Howard W. (Oak Ridge TN), Remotely controlled and/or powered mobile robot with cable management arrangement.
Gilbert, Jr., Duane L.; Williams, Marcus R.; Okerholm, Andrea M.; Kristant, Elaine H.; Longo, Sheila A.; Kee, Daniel E.; Strauss, Marc D., Autonomous coverage robot.
Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Autonomous coverage robot navigation system.
Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Autonomous coverage robot navigation system.
Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Autonomous coverage robot navigation system.
Gilbert, Jr., Duane L.; Williams, Marcus R.; Okerholm, Andrea M.; Kristant, Elaine H.; Longo, Sheila A.; Kee, Daniel E.; Strauss, Marc D., Autonomous coverage robot sensing.
Hussey, Patrick Alan; Roy, Robert Paul; Neumann, Rogelio Manfred; Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Autonomous coverage robots.
Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Navigating autonomous coverage robots.
Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
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