Features are disclosed for an end effector for automated identification and handling of an object. The end effector includes an entangling structure that can be positioned over an entanglement point of an overpackage in which a desired object is location using sensors. Using the location information, the end effector can identify a path to the entanglement location and detect whether the overpackage is engaged by detecting environmental changes at the end effector.

An allograft optimization system utilizes an optical system to determine the outer perimeter of a tissue blank for allograft cutting therefrom. The optical system determines an optimal allograft array pattern that can be derived from the irregular tissue blank and may include a plurality of various allograft shapes and sizes. A computer operates an allograft optimization computer program that receives input regarding the outer perimeter of the tissue blank. A cutting implement, such as a laser, is configured to cut the allografts from the irregularly shaped tissue blank according the allograft array pattern. The cutting implement is automatically actuated by an actuator with respect to the tissue blank to cut the allografts therefrom. The cutting implement may be a laser or a galvo laser that is directed by one or more mirrors. The tissue may be birth tissue including placental tissue and amnion.

A system enables management of dispensable units by supporting functions such as retrieval, scheduled distribution, analysis, and notifications. To this end, a dispensable retrieval mechanism may be programmed to carry out blind retrievals of dispensable units using a retrieval strategy with a predetermined sequence of retrieval attempts (e.g., fixed or varying two-dimensional retrieval patterns), which may be open loop or closed loop. Techniques may also include the identification of dispensable units through optical sensors and weight measurement devices that can detect, e.g., a texture, a shape, and a size of dispensable units. Such identification can be used to program retrieval attempts by a retrieval robot and in the formulation of the retrieval pattern. Additionally, networked notification systems for dispensable units can be used for updating rules or schedules related to the dispensable units, or alerting users and remote resources of any potential misuse or hazards of the dispensable units.

A sample-reagent mixture is thermal cycled through a plurality of cycles. Each thermal cycle includes actuating a heater to heat the sample-reagent mixtures; and dispensing a fluid onto the sample-reagent mixture to cool the sample reagent mixture.

A working device includes: a linear motion unit having three degrees of freedom and obtained by combining three linear motion actuators; and a rotary unit having three degrees of freedom and obtained by combining a plurality of rotating mechanisms each having one or more rotational degrees of freedom. The linear motion unit is mounted on a mount such that a base portion of the linear motion unit is fixed to the mount. A base portion of the rotary unit is fixedly mounted on an output portion of the linear motion unit. End effectors are mounted on both the output portion of the linear motion unit and an output portion of the rotary unit.

An unloading apparatus comprises a sensor interface, a gripping unit interface and a processor. A sensor interface acquires a photographed image from a sensor that photographs an image of a cargo group. A processor transmits, in a case of successfully recognizing each piece of cargo of a same-type cargo group, a first control signal to the gripping unit to perform unloading according to a first gripping method corresponding to the same-type cargo group, and transmits, in a case of failing to recognize each piece of cargo of the same-type cargo group, a second control signal to the gripping unit to perform unloading according to a second gripping method corresponding to a mixed-type cargo group including different types of cargo.

A waste sorting manipulator can include a gripper assembly for interacting with one or more waste objects to be sorted within a working area. There is at least one servo for moving the gripper assembly between the manipulator and the working area. There is also at least one slidable coupling mounted between the at least one servo and the gripper assembly for allowing relative movement between the at least one servo and the gripper assembly.

A waste sorting robot can include a manipulator comprising a suction gripper for interacting with one or more waste objects to be sorted within a working area, and wherein the manipulator is moveable within the working area. There is a controller configured to send control instructions to the manipulator. At least one pressure sensor is in fluid communication with the suction gripper and configured to generate a pressure signal in dependence on a fluid pressure in the suction gripper. The controller is configured to receive the pressure signal and to determine manipulator instructions in dependence on the pressure signal.

Apparatus for use in robotic servicing of a vehicle has a frame defining a bay for receiving a laterally positioned vehicle and a hallway longitudinally adjacent the bay, the hallway accommodating a mobile robotic servicing sub-system. A wheeled chassis underlies and supports the frame with the top of the chassis providing a floor of the bay and the hallway. A deck is located above the bay and an automated robotic system is used to pick the component from the deck, move a component along the frame, and to lower the component into the hallway for release to and pickup by the mobile robotic servicing sub-system to enable servicing with the component of the vehicle by the mobile robotic servicing sub-system.

An additive manufacturing system is disclosed for use in fabricating a structure. The additive manufacturing system may include a print head configured to discharge a material, a first structure, and a second structure. The first structure may be configured to move the print head within a plane during discharge of the material. The second structure may be configured to move the print head within the plane during material discharge, the second structure being movable together with the print head by the first structure.