Navigational control system for a robotic device
First Claim
1. A navigational control system for directly altering movement activity of a robotic device operating in a defined working area, comprising:
- a transmitting subsystem integrated in combination with the robotic device, the transmitting subsystem comprising means for emitting a number of directed beams to cover the defined working area, each directed beam having a predetermined emission pattern; and
a receiving subsystem separate from the robotic device and functioning as a base station, the receiving subsystem including a navigation control algorithm that defines a predetermined triggering event for the navigational control system and a set of detection units positioned within the defined working area, the detection units being positioned in a known aspectual relationship with respect to one another, the set of detection units being configured and operative to detect one or more of the directed beams emitted by the transmitting subsystem, wherein the receiving subsystem is configured and operative;
to process the one or more detected directed beams under the control of the navigational control algorithm to determine whether the predetermined triggering event has occurred, and, if the predetermined triggering event has occurred, to transmit a control signal to the robotic device; and
wherein reception of the control signal by the robotic device causes the robotic device to implement a prescribed conduct that alters the movement activity of the robotic device.
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0 Petitions
Accused Products
Abstract
A navigational control system for altering movement activity of a robotic device operating in a defined working area, comprising a transmitting subsystem integrated in combination with the robotic device, for emitting a number of directed beams, each directed beam having a predetermined emission pattern, and a receiving subsystem functioning as a base station that includes a navigation control algorithm that defines a predetermined triggering event for the navigational control system and a set of detection units positioned within the defined working area in a known spaced-apart relationship, the set of detection units being configured and operative to detect one or more of the directed beams emitted by the transmitting system; and wherein the receiving subsystem is configured and operative to process the one or more detected directed beams under the control of the navigational control algorithm to determine whether the predetermined triggering event has occurred, and, if the predetermined triggering event has occurred transmit a control signal to the robotic device, wherein reception of the control signal by the robotic device causes the robotic device to implement a prescribed conduct that alters the movement activity of the robotic device.
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Citations
38 Claims
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1. A navigational control system for directly altering movement activity of a robotic device operating in a defined working area, comprising:
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a transmitting subsystem integrated in combination with the robotic device, the transmitting subsystem comprising means for emitting a number of directed beams to cover the defined working area, each directed beam having a predetermined emission pattern; and
a receiving subsystem separate from the robotic device and functioning as a base station, the receiving subsystem including a navigation control algorithm that defines a predetermined triggering event for the navigational control system and a set of detection units positioned within the defined working area, the detection units being positioned in a known aspectual relationship with respect to one another, the set of detection units being configured and operative to detect one or more of the directed beams emitted by the transmitting subsystem, wherein the receiving subsystem is configured and operative;
to process the one or more detected directed beams under the control of the navigational control algorithm to determine whether the predetermined triggering event has occurred, and, if the predetermined triggering event has occurred, to transmit a control signal to the robotic device; and
wherein reception of the control signal by the robotic device causes the robotic device to implement a prescribed conduct that alters the movement activity of the robotic device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 12, 13, 14, 15, 17, 18, 19, 20, 21, 22, 23, 24, 25, 28, 29, 30)
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10-11. -11. (canceled)
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16. (canceled)
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26-27. -27. (canceled)
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31. A navigational control system for directly altering movement activity of a robotic device operating in a defined working area, comprising:
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a transmitting subsystem separate from the robotic device and comprising a distributed set of transmitting units located within the defined working area, each transmitting unit being configured and operative to emit a directed beam having a predetermined emission pattern at a unique operating frequency; and
a receiving subsystem integrated in combination with the robotic device, that includes a navigation control algorithm that defines a predetermined triggering event for the navigational control system, the receiving subsystem including means for detecting the directed beams emitted by the transmitting subsystem; and
wherein the receiving subsystem is configured and operative;
to process the detected directed beams under the control of the navigational control algorithm to determine whether the predetermined triggering event has occurred, and, if the predetermined triggering event has occurred, to communicate a control signal to the robotic device; and
wherein reception of the control signal by the robotic device causes the robotic device to implement a prescribed conduct that alters the movement activity of the robotic device. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38)
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Specification