Abstract:
A system may include a means for administering a therapeutic agent to a subject; a means for administering a first pharmaceutically-acceptable taggant to the subject at least substantially concurrent with the therapeutic agent, the first pharmaceutically-acceptable taggant having a pharmacokinetic profile; and a means for administering a second pharmaceutically-acceptable taggant to the subject with the first pharmaceutically-acceptable taggant, the second pharmaceutically-acceptable taggant having a pharmacokinetic profile different from the pharmacokinetic profile of the first pharmaceutically-acceptable taggant.
Abstract:
A system is generally described for altering a user's motional response to sensory input and includes a current source and a first sensory input device configured to provide a first sensory input to a user. The system also includes a second sensory input device configured to provide a second sensory input to a user and a sensor device configured to detect motions associated with the user. Further, the system includes a control unit configured to receive signals from the sensor and receive sensory signals related to the first and second sensory inputs. The control unit generates control signals based on the signals and the sensory signals. Further still, the system includes electrical contacts configured to contact flesh of the user and deliver current from the current source to the vestibular system of the user in response to the control signals and the current is configured to cause the user to move in a predetermined manner if the user is not in the process of making the predetermined motion.
Abstract:
A method for providing motor control therapy for a user by altering a user's motional response is generally described. The method includes directing a user to perform a specified motion in accordance with a schedule. The method also includes detecting the user's motions in response to the directions, by a feedback sensor device, the motions associated with the user and providing information from an information source including information associated with a target motion. Further, the method includes generating, by a control program, control data based on the data representative of the detected motions and the information. The control program is configured to receive data representative of the detected motions and to receive the information. The control program has a control algorithm configured to generate control data based on the data representative of the detected motions and the information. Further still, the method includes running the control program by a controller configured to output control signals based on the control data. Yet further still, the method includes delivering current from the current source to a vestibular stimulation device configured to deliver a stimulation current to at least one electrical contact, in response to the control signals. The at least one electrical contact is configured to contact flesh of the user.
Abstract:
One aspect relates to combining an at least one primary general illumination lighting with an at least one LED-based secondary general illumination lighting. The aspect further comprises sensing an at least one sensed electric characteristics used to produce the at least one primary general illumination lighting. The aspect further comprises controlling an optical characteristic of the at least one LED-based secondary general illumination lighting at least partially responsive to the sensing the at least one sensed electric characteristics used to produce the at least one primary general illumination lighting.
Abstract:
A beam power source transmits a signal indicating power availability, receives a request for power in response, and beams power in response to the request.
Abstract:
A beam power source transmits a signal indicating power availability, receives a request for power in response, and beams power in response to the request.
Abstract:
Illustrative embodiments provide systems, applications, apparatuses, computer software program products, and methods related to identification of electrical appliances by electrical characteristics.
Abstract:
Illustrative embodiments provide systems, applications, apparatuses, computer software program products, and methods related to identification of electrical appliances by electrical characteristics.
Abstract:
In an embodiment, a multi-layer insulation (MLI) composite material includes a first thermally-reflective layer and a second thermally-reflective layer spaced from the first thermally-reflective layer. At least one of the first or second thermally-reflective layers includes a plurality of through openings configured to at least partially obstruct transmission therethrough of infrared electromagnetic radiation having a wavelength greater than a threshold wavelength. A region between the first and second thermally-reflective layers impedes heat conduction between the first and second thermally-reflective layers. Other embodiments include a storage container including a container structure that may be at least partially formed from such MLI composite materials, and methods of using such MLI composite materials.
Abstract:
Solutions for limiting the undesirable spread of pathogens by indirect contact are provided. The solutions involve event-controlled self-sterilization of contact surfaces on articles or fixtures. A self-sterilizing contact surface structure allows chemical sterilizing agents to controllably flow in response to a contact event, from within the article to exude upon a portion of the contact surface.