Abstract: The present invention relates to transferring torque between a first unit, which is typically a mobile machine or a robot, and a second unit, which is typically a fixed or stationary machine. The units are arranged such that a drive coupler of the first unit designed for delivering torque about a drive axis can engage the driven coupler, which belongs to the second unit and has a driven axis, along an engagement direction that is nearly perpendicular to the direction of the driven axis. A lateral displacement mechanism in provided is the first unit to achieve a first-order coaxial alignment between the drive and driven axes. Additional measures such as compliance mechanisms are provided for improving engagement, coupling and reducing the level of axial misalignment in the apparatus and methods of the invention.

Abstract: The present invention relates to a highly-available and fault-tolerant solar tracking system and the process required to manage such a system. A fleet of multiple, redundant mobile robots managed by a task coordinator is deployed to track solar panels in a solar farm in alignment with the sun. Each robot has a control unit for engaging with a coupler connected to one or multiple solar panels and adjusting their orientation, as well as communicating with the task coordinator to receive tasks. The task coordinator senses various events such as robot failure/deterioration, as well as various environmental conditions, and sends tasks reconciled with event types. The system is highly-available and fault-tolerant as it remains operational as long as there is one operational robot. The task coordinator assigns tasks to the mobile robots so as to optimize battery life or other factors, such as, e.g., overall maintenance costs across the fleet.

Abstract: A system and method of using differential optical signals to track the orientation of a solar surface or surfaces is proposed. Two dispersive prisms or gratings arranged in a mirror-symmetric fashion are used to decompose light into its constituent colors, and the gain of a differential amplifier circuit based on the difference of the frequencies of single color collimated light produced by the two prisms or gratings is used to maintain the on-sun orientation of the solar surface or surfaces. The invention provides for a high-precision, low-cost solar tracking system. Preferably, the signal processing and tracking of solar surfaces is performed by a mobile robot that travels to multiple solar surfaces to minimize cost.

Abstract: Techniques for transferring torque between a first unit, such as a mobile machine or a robot, and a second unit, such as a fixed or stationary machine. The units are arranged such that a drive coupler of the first unit designed for delivering torque about a drive axis can engage the driven coupler, which belongs to the second unit and has a driven axis, along an engagement direction that is nearly perpendicular to the direction of the driven axis. A lateral displacement mechanism of the first unit achieves a first-order coaxial alignment between the drive and driven axes. Additional measures are provided for improving engagement, coupling and reducing the level of axial misalignment. Techniques disclosed are tolerant of imprecise alignment between the drive and driven couplers.

Abstract: The present invention relates to a highly-available and fault-tolerant solar tracking system and the process required to manage such a system. A fleet of multiple, redundant mobile robots managed by a task coordinator is deployed to track solar panels in a solar farm in alignment with the sun. Each robot has a control unit for engaging with a coupler connected to one or multiple solar panels and adjusting their orientation, as well as communicating with the task coordinator to receive tasks. The task coordinator senses various events such as robot failure/deterioration, as well as various environmental conditions, and sends tasks reconciled with event types. The system is highly-available and fault-tolerant as it remains operational as long as there is one operational robot. The task coordinator assigns tasks to the mobile robots so as to optimize battery life or other factors, such as, e.g., overall maintenance costs across the fleet.

Abstract: The present invention relates to transferring torque between a first unit, such as a mobile machine or a robot, and a second unit, such as a fixed or stationary machine. The units are arranged such that a drive coupler of the first unit designed for delivering torque about a drive axis can engage the driven coupler, which belongs to the second unit and has a driven axis, along an engagement direction that is nearly perpendicular to the direction of the driven axis. A lateral displacement mechanism of the first unit achieves a first-order coaxial alignment between the drive and driven axes. Additional measures are provided for improving engagement, coupling and reducing the level of axial misalignment. The invention further pertains to a dual-mode torque delivery apparatus tolerant of imprecise alignment.

Abstract: The present invention relates to transferring torque between a first unit, which is typically a mobile machine or a robot, and a second unit, which is typically a fixed or stationary machine. The units are arranged such that a drive coupler of the first unit designed for delivering torque about a drive axis can engage the driven coupler, which belongs to the second unit and has a driven axis, along an engagement direction that is nearly perpendicular to the direction of the driven axis. A lateral displacement mechanism in provided is in the first unit to achieve a first-order coaxial alignment between the drive and driven axes. Additional measures such as compliance mechanisms are provided for improving engagement, coupling and reducing the level of axial misalignment in the apparatus and methods of the invention.