Abstract: A system and method for digitally signing data. A method includes generating, by a first device, at least one first secret share based on a secret key chosen by the first device, wherein the first device is offline with respect to a second device; partially signing data by the first device using the at least one secret share, wherein the data is received from the second device without establishing direct communications between the first device and the second device; and sending the partially signed data from the first device to the second device, wherein the second device generates signed data using the partially signed data, wherein the signed data corresponds to a public key generated based on the at least one first secret share and at least one second secret share generated by the second device.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.

Abstract: A system and method for extended spectrum ultrasound training using tags placed on animate and/or inanimate objects. The system combines the use of tags, a reader, and a 3-DOF motion tracker to train a user in finding image windows and optimal image views in an ultrasound simulation environment.

Abstract: A system and method for extended spectrum ultrasound training using tags placed on animate and/or inanimate objects. The system combines the use of tags, a reader, and a 3-DOF motion tracker to train a user in finding image windows and optimal image views in an ultrasound simulation environment.

Abstract: A system and method that improves the speed and efficiency through which ultrasound practitioners acquire and develop essential basic ultrasound skills in a simulated environment without the need of actual patients or subjects. The system utilizes a simulator with an input device that manipulates a virtual transducer probe in a simulated 3D space to cut a slice through a basic shape. A 2D section of the cut plane is also displayed so that the practitioner can learn to relate 2D section with their 3D objects cut in cross-section.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.

Abstract: A system and method for extended spectrum ultrasound training using tags placed on animate and/or inanimate objects. The system combines the use of tags, a reader, and a 3-DOF motion tracker to train a user in finding image windows and optimal image views in an ultrasound simulation environment.

Abstract: A method and system for ultrasound simulation for training purposes. The system comprises a probe assembly, an electronic tag, and a translation sensor. The probe assembly comprises an orientation sensor to detect movement with three degrees of freedom. The translation sensor offers two additional degrees of freedom of movement detection. The probe assembly also has a transponder reader that when placed adjacent to the electronic tag, can communicate with a transponder within the electronic tag. Electronic tag has adhesive that allows the electronic tag to be a fixed to a subject, whether a live being or an inanimate mannequin. The information collected from the transponder is transmitted to the computing device to provide a simulated environment that mimics the use of an actual ultrasound probe to give the user a realistic experience using an ultrasound machine.

Abstract: A system and method for extended spectrum ultrasound training using tags placed on animate and/or inanimate objects. The system combines the use of tags, a reader, and a 3-DOF motion tracker to train a user in finding image windows and optimal image views in an ultrasound simulation environment.

Abstract: A substrate support assembly comprises a ceramic puck comprising a substrate receiving surface, and having embedded therein: (i) an electrode to generate an electrostatic force to retain a substrate placed on the substrate receiving surface; and (ii) a heater to heat the substrate, the heater comprising a plurality of spaced apart heater coils. A compliant layer bonds the ceramic puck to a base, the compliant layer comprising a silicon material. The base comprises a channel to circulate fluid therethrough, the channel having a channel inlet and a channel terminus.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.

Abstract: A system and method that improves the speed and efficiency through which ultrasound practitioners acquire and develop essential basic ultrasound skills in a simulated environment without the need of actual patients or subjects. The system utilizes a simulator with an input device that manipulates a virtual transducer probe in a simulated 3D space to cut a slice through a basic shape. A 2D section of the cut plane is also displayed so that the practitioner can learn to relate 2D section with their 3D objects cut in cross-section.

Abstract: A substrate support assembly comprises a ceramic puck comprising a substrate receiving surface, and having embedded therein: (i) an electrode to generate an electrostatic force to retain a substrate placed on the substrate receiving surface; and (ii) a heater to heat the substrate, the heater comprising a plurality of spaced apart heater coils. A compliant layer bonds the ceramic puck to a base, the compliant layer comprising a silicon material. The base comprises a channel to circulate fluid therethrough, the channel having a channel inlet and a channel terminus.

Abstract: A substrate support assembly comprises a ceramic puck having a substrate receiving surface and an opposing backside surface. The ceramic puck has an electrode and a heater embedded therein. The heater comprises first and second coils that are radially spaced apart. A base of the support assembly comprises a channel to circulate fluid therethrough, the channel comprising an inlet and terminus that are adjacent to one another so that the channel loops back upon itself. A compliant layer bonds the ceramic puck to the base.

Abstract: A system and method that improves the speed and efficiency through which ultrasound practitioners acquire and develop essential basic ultrasound skills in a simulated environment without the need of actual patients or subjects. The system utilizes a simulator with an input device that manipulate a virtual transducer probe in a simulated 3D space to cut a slice through a basic shape. A 2D section of the cut plane is also displayed so that the practitioner can learn to relate 2D section with their 3D objects cut in cross-section.

Abstract: A substrate support assembly comprises a ceramic puck having a substrate receiving surface and an opposing backside surface. The ceramic puck has an electrode and a heater embedded therein. The heater comprises first and second coils that are radially spaced apart. A base of the support assembly comprises a channel to circulate fluid therethrough, the channel comprising an inlet and terminus that are adjacent to one another so that the channel loops back upon itself. A compliant layer bonds the ceramic puck to the base.

Abstract: This invention describes a system and method for simulating a needle-based medical procedure for purposes of education and training. The described invention has a variety of medical training and assessment applications and can integrate and enhance a variety of existing medical simulation and assessment processes and technologies. The described device is designed to operate in the form of a needle and syringe, and will measure the orientation and penetration depth of the needle and contains all the necessary hardware to transmit this information to a remote installation that can process and visualize the data within a computer-based training device.

Abstract: A substrate processing chamber comprises an electrostatic chuck comprising a ceramic puck having a substrate receiving surface and an opposing backside surface. In one version, the ceramic puck comprises a thickness of less than 7 mm. An electrode is embedded in the ceramic puck to generate an electrostatic force to hold a substrate, and heater coils in the ceramic puck allow independent control of temperatures at different heating zones of the puck. A chiller provides coolant to coolant channels in a base below the ceramic puck. A controller comprises temperature control instruction sets which set the coolant temperature in the chiller in relation prior to ramping up or down of the power levels applied to the heater.

Abstract: A method and system for ultrasound simulation for training purposes. The system comprises a probe assembly, an electronic tag, and a translation sensor. The probe assembly comprises an orientation sensor to detect movement with three degrees of freedom. The translation sensor offers two additional degrees of freedom of movement detection. The probe assembly also has a transponder reader that when placed adjacent to the electronic tag, can communicate with a transponder within the electronic tag. Electronic tag has adhesive that allows the electronic tag to be a fixed to a subject, whether a live being or an inanimate mannequin. The information collected from the transponder is transmitted to the computing device to provide a simulated environment that mimics the use of an actual ultrasound probe to give the user a realistic experience using an ultrasound machine.