A method of accommodating patient movement in a laser surgery system with a scanner. The scanner is configured to be coupled with an eye interface device and operable to scan an electromagnetic radiation beam in at least two dimensions in an eye interfaced with the eye interface device. The scanner and the eye interface device move in conjunction with movement of the eye. A first support assembly supports the scanner so as to accommodate relative movement between the scanner and the first support assembly parallel so as to accommodate movement of the eye. A beam source generates the electromagnetic radiation beam. The electromagnetic radiation beam propagates from the beam source to the scanner along an optical path having an optical path length that varies in response to movement of the eye.

According to the present invention, a system (1; 1′) for processing at least one substrate (2) containing a dried fluid sample (21) is provided, the system (1; 1′) comprising a support (12) configured to position the substrate (2), a laser device (3) for directing a laser beam (31) to the substrate (2), configured to cut at least one area of the substrate (2) containing the dried fluid sample (21) by means of the laser beam (31), a container holder (4; 4′) configured to hold and position a container (5) for receiving the cut area, the container holder (4; 4′) being arranged below the substrate (2), and an extraction subsystem (6) for extracting fume and/or dust generated when laser cutting the substrate (2), wherein the extraction subsystem (6) consists of at least two extraction components (61, 62) sandwiching the substrate (2) there between. Furthermore, a method for automated processing at least one substrate (2) containing a dried fluid (21) sample by means of such a system (1; 1′) is provided.

A device for cutting human or animal tissue including a femtosecond laser that can emit a L.A.S.E.R. beam in the form of impulses. The device directs and focuses the beam onto or into the tissue for the cutting thereof. The device further includes and element to shape the L.A.S.E.R. beam, positioned in the trajectory of the beam, and to modulate the energy distribution of the L.A.S.E.R. beam in the focal plane thereof, corresponding to the cutting plane.

Various embodiments of an apparatus, methods, systems and computer program products described herein are directed to an agricultural observation and treatment system and method of operation. The agricultural treatment system uses a treatment unit for spraying fluid at agricultural objects. The treatment unit is configured with a treatment head assembly that includes a moveable treatment head with one or more spraying tips. A first and second motor assembly are operated by the treatment unit to control the movement of the treatment head. The first motor assembly includes a first motor rotatable in a first rotational axis. A first linkage assembly is connected to the first motor and the treatment head assembly. The first linkage assembly is rotatable by the first motor. The second linkage assembly is rotatable by the second motor.

Various embodiments of an apparatus, methods, systems and computer program products described herein are directed to an agricultural observation and treatment system and method of operation. The agricultural treatment system uses a treatment unit for spraying fluid at agricultural objects. The treatment unit is configured with a treatment head assembly that includes a moveable treatment head with one or more spraying tips. A first and second motor assembly are operated by the treatment unit to control the movement of the treatment head. The first motor assembly includes a first motor rotatable in a first rotational axis. A first linkage assembly is connected to the first motor and the treatment head assembly. The first linkage assembly is rotatable by the first motor. The second linkage assembly is rotatable by the second motor.

Systems and methods for treating a plant in a geographic area are disclosed. In one aspect, an agricultural treatment system can include a vehicle having a body and one or more legs operably connected to the body. The vehicle can also include an engine control unit configured to control motion of the vehicle. The system can include one or more image capture devices including a camera configured to capture images of a ground scene or terrain. The system can include an on-board computing system configured to identify features of the images of the ground scene including a target plant. The system can include a treatment unit configured to target and emit a laser beam on at least a portion of a plant located on the terrain.

A method for creating and selecting customized cosmetic brushes includes utilizing a mobile application to take photos of a customer's eyelashes which are then analyzed using AI and photo analysis. This data creates a lash profile, with key attributes of spacing, length, thickness, which is turned into a custom cut makeup applicator. Through use of ascertaining and selection steps the applicator is then assembled and customized to that consumer.

According to the present invention, a system (1; 1′) for processing at least one substrate (2) containing a dried fluid sample (21) is provided, the system (1; 1′) comprising a support (12) configured to position the substrate (2), a laser device (3) for directing a laser beam (31) to the substrate (2), configured to cut at least one area of the substrate (2) containing the dried fluid sample (21) by means of the laser beam (31), a container holder (4; 4′) configured to hold and position a container (5) for receiving the cut area, the container holder (4; 4′) being arranged below the substrate (2), and an extraction subsystem (6) for extracting fume and/or dust generated when laser cutting the substrate (2), wherein the extraction subsystem (6) consists of at least two extraction components (61, 62) sandwiching the substrate (2) there between. Furthermore, a method for automated processing at least one substrate (2) containing a dried fluid (21) sample by means of such a system (1; 1′) is provided.

A contoured biological tissue for a bioprostheses, such as a cardiac/vascular patch or a bioprosthetic heart valve, and methods of contouring the tissue, are described. A predetermined pattern is provided on the tissue, comprising a plurality of ridges or depressions that are configured to facilitate cellular migration in a first direction and discourage cellular migration in a second direction. The biological tissue can be used in connection with a bioprosthetic heart valve comprising a biological tissue leaflet structure coupled to a supporting frame.

A system for forming a corneal implant includes a cutting apparatus, which includes a laser source that emits a laser and optical elements that direct the laser. The system includes a controller implemented with at least one processor and at least one data storage device. The controller generates a sculpting plan for modifying a first shape of a lenticule formed from corneal tissue and achieving a second shape for the lenticule to produce a corneal implant with a refractive profile to reshape a recipient eye. The sculpting plan is determined from measurements relating to the lenticule having the first shape and information relating to a refractive profile for a corneal implant. The controller controls the cutting apparatus to direct, via the one or more optical elements, the laser from the laser source to sculpt the lenticule according to the sculpting plan to produce the corneal implant with the refractive profile.