Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.

Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.

Abstract: A stereoscopic imaging platform includes a stereoscopic camera configured to record left and right images of a target site. A robotic arm is operatively connected to the stereoscopic camera, the robotic arm being adapted to selectively move the stereoscopic camera relative to the target. The stereoscopic camera includes a lens assembly having at least one lens and defining a working distance. The lens assembly has at least one focus motor adapted to move the at least one lens to selectively vary the working distance. A controller is adapted to selectively execute one or more automatic focusing modes for the stereoscopic camera. The controller has a processor and tangible, non-transitory memory on which instructions are recorded. The automatic focusing modes include a target locking mode. The target locking mode is adapted to maintain a focus of the at least one stereoscopic image while the robotic arm is moving the stereoscopic camera.

Abstract: A stereoscopic imaging platform includes a stereoscopic camera configured to record left and right images of a target site. A robotic arm is operatively connected to the stereoscopic camera, the robotic arm being adapted to selectively move the stereoscopic camera relative to the target. The stereoscopic camera includes a lens assembly having at least one lens and defining a working distance. The lens assembly has at least one focus motor adapted to move the at least one lens to selectively vary the working distance. A controller is adapted to selectively execute one or more automatic focusing modes for the stereoscopic camera. The controller has a processor and tangible, non-transitory memory on which instructions are recorded. The automatic focusing modes include a target locking mode. The target locking mode is adapted to maintain a focus of the at least one stereoscopic image while the robotic arm is moving the stereoscopic camera.

Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.

Abstract: A stereoscopic imaging platform includes a stereoscopic camera configured to record left and right images of a target site. A robotic arm is operatively connected to the stereoscopic camera, the robotic arm being adapted to selectively move the stereoscopic camera relative to the target. The stereoscopic camera includes a lens assembly having at least one lens and defining a working distance. The lens assembly has at least one focus motor adapted to move the at least one lens to selectively vary the working distance. A controller is adapted to selectively execute one or more automatic focusing modes for the stereoscopic camera. The controller has a processor and tangible, non-transitory memory on which instructions are recorded. The automatic focusing modes include a target locking mode. The target locking mode is adapted to maintain a focus of the at least one stereoscopic image while the robotic arm is moving the stereoscopic camera.

Abstract: Liquid submersion cooling devices and systems are described that use a cooling liquid, for example a dielectric cooling liquid, to submersion cool individual electronic devices or an array of electronic devices. In one embodiment, the electronic device includes a non-pressurized device housing defining an interior space where pressure in the interior space equals or is only slightly different than pressure outside the non-pressurized device housing.

Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.

Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.

Abstract: A tele-presence system that includes a remote device coupled to a control station through a communication link. The remote device includes a remote monitor, a remote camera, a remote speaker and a remote microphone. Likewise, the control station includes a station monitor, a station camera, a station speaker and a station microphone. The control station displays a plurality of graphical icons that each represents a different type of communication link between the control station and the remote device. The graphical icons can be selected to allow a user of the control station to change the communication link between the remote device and its initial node.

Abstract: A tele-presence system that includes a remote device coupled to a control station through a communication link. The remote device includes a remote monitor, a remote camera, a remote speaker and a remote microphone. Likewise, the control station includes a station monitor, a station camera, a station speaker and a station microphone. The control station displays a plurality of graphical icons that each represents a different type of communication link between the control station and the remote device. The graphical icons can be selected to allow a user of the control station to change the communication link between the remote device and its initial node.

Abstract: Liquid submersion cooling devices and systems are described that use a cooling liquid, for example a dielectric cooling liquid, to submersion cool individual electronic devices or an array of electronic devices. In one embodiment, the electronic device includes a non-pressurized device housing defining an interior space where pressure in the interior space equals or is only slightly different than pressure outside the non-pressurized device housing.

Abstract: Liquid submersion cooling devices and systems are described that use a cooling liquid, for example a dielectric cooling liquid, to submersion cool individual electronic devices or an array of electronic devices. In one embodiment, the electronic device includes a non-pressurized device housing defining an interior space where pressure in the interior space equals or is only slightly different than pressure outside the non-pressurized device housing.

Abstract: Liquid submersion cooling devices and systems are described that use a cooling liquid, for example a dielectric cooling liquid, to submersion cool individual electronic devices or an array of electronic devices. In one embodiment, the electronic device includes a non-pressurized device housing defining an interior space where pressure in the interior space equals or is only slightly different than pressure outside the non-pressurized device housing.

Abstract: Embodiments describe methods of synthesizing metal mesoporphyrin compounds. In embodiments, a metal mesoporphyrin compound may be formed by hemin transmetallation and subsequent hydrogenation of the tin protoporphyrin IX to form a metal mesoporphyrin. In other embodiments, a method of synthesizing a metal mesoporphyrin compound comprises forming a protoporphyrin methyl ester from hemin and converting the protoporphyrin methyl ester intermediate to a metal mesoporphyrin compound through metal insertion and hydrogenation. In other embodiments, a metal mesoporphyrin compound may be formed from hemin by a hydrogen-free hydrogenation method to form a mesoporphyrin IX intermediate followed by metal insertion and hydrogenation. In embodiments, a method of synthesizing a metal mesoporphyrin compound comprises forming a mesoporphyrin IX dihydrochloride intermediate compound and converting the mesoporphyrin IX intermediate to a metal mesoporphyrin compound through metal insertion.

Abstract: A tele-presence system that includes a remote device coupled to a control station through a communication link. The remote device includes a remote monitor, a remote camera, a remote speaker and a remote microphone. Likewise, the control station includes a station monitor, a station camera, a station speaker and a station microphone. The control station displays a plurality of graphical icons that each represents a different type of communication link between the control station and the remote device. The graphical icons can be selected to allow a user of the control station to change the communication link between the remote device and its initial node.

Abstract: Embodiments describe methods of synthesizing metal mesoporphyrin compounds. In embodiments, a metal mesoporphyrin compound may be formed by hemin transmetallation and subsequent hydrogenation of the tin protoporphyrin IX to form a metal mesoporphyrin. In other embodiments, a method of synthesizing a metal mesoporphyrin compound comprises forming a protoporphyrin methyl ester from hemin and converting the protoporphyrin methyl ester intermediate to a metal mesoporphyrin compound through metal insertion and hydrogenation. In other embodiments, a metal mesoporphyrin compound may be formed from hemin by a hydrogen-free hydrogenation method to form a mesoporphyrin IX intermediate followed by metal insertion and hydrogenation. In embodiments, a method of synthesizing a metal mesoporphyrin compound comprises forming a mesoporphyrin IX dihydrochloride intermediate compound and converting the mesoporphyrin IX intermediate to a metal mesoporphyrin compound through metal insertion.

Abstract: A scalable liquid submersion cooling system for electronics. The system includes a plurality of modular system components, such as electronics enclosures, manifolds, pumps, and heat exchanger units. The modular system components permit the liquid submersion cooling system to be scaled up or down to accommodate changing needs. In addition, the modularity of the components facilitates portability, allowing relatively easy transport and set-up/break-down of electronic systems.

Abstract: A tele-presence system that includes a remote device coupled to a control station through a communication link. The remote device includes a remote monitor, a remote camera, a remote speaker and a remote microphone. Likewise, the control station includes a station monitor, a station camera, a station speaker and a station microphone. The control station displays a plurality of graphical icons that each represents a different type of communication link between the control station and the remote device. The graphical icons can be selected to allow a user of the control station to change the communication link between the remote device and its initial node.

Abstract: Embodiments describe methods of synthesizing metal mesoporphyrin compounds. In embodiments, a metal mesoporphyrin compound may be formed by hemin transmetallation and subsequent hydrogenation of the tin protoporphyrin IX to form a metal mesoporphyrin. In other embodiments, a method of synthesizing a metal mesoporphyrin compound comprises forming a protoporphyrin methyl ester from hemin and converting the protoporphyrin methyl ester intermediate to a metal mesoporphyrin compound through metal insertion and hydrogenation. In other embodiments, a metal mesoporphyrin compound may be formed from hemin by a hydrogen-free hydrogenation method to form a mesoporphyrin IX intermediate followed by metal insertion and hydrogenation. In embodiments, a method of synthesizing a metal mesoporphyrin compound comprises forming a mesoporphyrin IX dihydrochloride intermediate compound and converting the mesoporphyrin IX intermediate to a metal mesoporphyrin compound through metal insertion.