Abstract: A device and method for adjusting the magnetic strength of a magnetic end effector for lift systems is described. The magnetic end effector is capable of lifting discriminate payloads by selectively varying the strength of the magnetic forces output by the magnetic end effector. An actuator can be operatively coupled to the variable strength magnet end effector, wherein the actuator is selectively actuatable to control the adjustment of the variable strength magnet. The actuator may also be configured to maintain the variable strength magnet at a desired magnetic force output strength once achieved for any given amount of time.

Abstract: Medical devices for navigation through anatomy, including guidewires, which may have a core wire, a slotted tubular member, or both. Embodiments may have coils, including non-circular cross-section edge-wound marker coils, extended coil tips, and soldered or glued mesial joint coils. Core wires may have a step, ridge, or taper at the joints to the tubular member, and may be flattened at the distal tip. Radiopaque material may be located inside the tubular member, and the distal tip may be heat treated to make it shapeable. Additional tubular members or coils may be used concentrically or in line and may enhance flexibility, provide radiopacity, reduce friction, or reduce material or manufacturing cost. Tubular members may be chamfered or tapered continuously or incrementally. Slots may be arranged in groups, such as groups of three, and may be equal in depth or unequal in depth to provide a steerable or compressible tip.

Abstract: A robot displacement device for use with a robotic frame shaped to approximate and be coupleable to at least a portion of the human body and configured to mimic movement of the human body. The device employs a plurality of force sensors which are attached to the robotic frame which detect a baseline controlling interface force status relationship between the sensors and the extremities of the human operator. Based on the output force signal from the sensors and the force and direction of gravity relative to the robotic frame, the computation system calculates at least a rotational force required to maintain the controlling force status relationship. That system then generates and transmits an actuation signal to a drive system attached to the robotic frame which displaces a portion of the robotic frame in order to maintain the controlling force status relationship.

Abstract: The present invention relates to improved devices and methods for popping popcorn, comprising moving popcorn kernels within a heating chamber with airflow and subjecting the popcorn kernels to focused microwave energy sufficient to cause the popcorn kernels to pop. In some embodiments, the devices and methods utilize a single-mode resonant microwave applicator to generate a standing microwave energy field comprising an array of one or more anti-node high intensity microwave regions and subjecting popcorn kernels to the microwave energy in the one or more high intensity microwave regions.

Abstract: The present invention relates to a popcorn vending machine, comprising a kernel holding chamber configured to store and dispense kernels, a heating chamber comprising an inlet configured to receive kernels from the kernel holding chamber, a microwave emitter configured to produce microwave energy within the heating chamber and heat the kernels, a single-mode resonant microwave applicator configured to generate a stable focused high intensity microwave region within the heating chamber, at least one air blower disposed in communication with the heating chamber, wherein the air blower is configured to blow air into the heating chamber, thereby moving kernels within the heating chamber and selectively removing popped flakes from the high intensity microwave region when popped, and a heating chamber outlet connected to the heating chamber for receiving popped flakes from the heating chamber and dispensing the popped flakes into a container.

Abstract: The present invention relates to an apparatus for popping kernels, comprising a heating chamber for containing kernels, a microwave emitter configured to produce microwave energy within the heating chamber and heat the kernels, a single-mode resonant microwave applicator configured to generate a standing microwave energy field comprising an array of one or more high intensity microwave regions, and a device configured to move kernels within the high intensity microwave regions.

Abstract: The present invention relates to a method for popping kernels, comprising generating a standing microwave energy field in a single-mode resonant microwave applicator, wherein the standing microwave energy field comprises an array of one or more high intensity microwave region, providing a heating chamber encompassing the one or more hot zones, delivering kernels to the heating chamber and moving the kernels through the high intensity microwave region within the heating chamber, subjecting kernels to the microwave energy in the one or more high intensity microwave regions, sufficient to cause the kernels to pop and produce popped flakes, and selectively discharging popped flakes from the heating chamber by upward airflow.

Abstract: The present invention relates to a method for popping kernels, comprising generating a standing microwave energy field in a single-mode resonant microwave applicator, wherein the standing microwave energy field comprises an array of one or more high intensity microwave regions; and subjecting kernels to the microwave energy in the one or more high intensity microwave regions, sufficient to cause the kernels to pop and produce popped flakes.

Abstract: A method of popping kernels, comprising moving kernels within a heating chamber with airflow, and subjecting the kernels to focused microwave energy sufficient to cause the kernels to pop, resulting in popped flakes.

Abstract: The present invention relates to a method of popping kernels, comprising moving kernels within a heating chamber with airflow, and subjecting the kernels to focused microwave energy sufficient to cause the kernels to pop, resulting in popped flakes, wherein the method produces popped flakes with an average popping yield greater than 94%. The present invention also relates to a method for popping kernels, comprising generating in a single-mode resonant microwave applicator a standing microwave energy field comprising an array of one or more anti-node high intensity microwave regions, subjecting kernels to the microwave energy in the one or more high intensity microwave regions, sufficient for the kernels to achieve a uniform distribution of microwave energy heat to cause the kernels to pop, wherein the method produces popped flakes with an average popping yield greater than 94%.

Abstract: The present invention relates to an apparatus for popping kernels, comprising a heating chamber configured to contain kernels, a microwave emitter configured to produce microwave energy within the heating chamber and heat the kernels, a single-mode resonant microwave applicator configured to generate a stable focused high intensity microwave region within the heating chamber, and an air blower configured to create airflow within the heating chamber sufficient to move the kernels within the heating chamber.

Abstract: A micro-camera guided suturing device is disclosed comprising an elongate suture body having at least one lumen disposed therein and an imaging structure disposed within the at least one lumen of the suture. The imaging structure comprises a SSID optically coupled to a lens system. In one aspect, the suturing device further comprises a conductive element detachably coupled to the suture. In yet another aspect, the suture body comprises a shape memory material.

Abstract: A robotic mobile low-profile transport vehicle is disclosed. The vehicle can comprise a first transport module having a frame assembly, a mobility system, and a propulsion system and a second transport module having a frame assembly and a mobility system. A multi-degree of freedom coupling assemblage can join the first and second transport modules together. The vehicle can include a first platform supported about the frame assembly of the first transport module, and a second platform supported about the frame assembly of the second transport module. Each of the platforms can be configured to receive a load for transport. Additionally, the vehicle can include a control system that can operate to facilitate intra-module communication and coordination to provide a coordinated operating mode of the first and second transport modules and the coupling assemblage about a given terrain.

Abstract: A miniature quantum fluid transfer system configured to regulate the flow rate of a fluid by allowing passage of small, discrete increments of fluid through the valve including a valve body having at least one inlet to receive fluid and at least one outlet to release fluid, and a valve rod movably disposed in a first chamber in the valve body. The valve rod has a plurality of fluid passages spaced longitudinally along the valve rod, and the valve rod is movable to align each fluid passage with an inlet or outlet port in the first chamber to allow fluid to flow through selected inlet or outlet ports corresponding to selected fluid passages. The quantum fluid transfer system has a plug movably disposed in a second chamber to push a corresponding volume of fluid out of the second chamber at the end opposite the end the fluid entered.

Abstract: A liquid missile for being projected from a launching device which includes a liquid charge combined with a non-rigid flight integrity component. The flight integrity component allows the liquid charge to be launched at increased speeds and distances by inhibiting substantial break-up of the liquid charge during flight.

Abstract: A method of operating a biomimetic mechanical joint having a plurality of fractional actuators configured for rotating a support member about a pivot device. The fractional actuators can be selectively recruited during operation, either individually or together, to efficiently rotate the support member about the mechanical joint throughout a range of movements and under a variety of load conditions. Each fractional actuator can be continuously throttled to reduce the speed or torque at which the actuator operates. The capability of selectively recruiting and throttling each fractional actuator results in an actuator system having two degrees of freedom, in which a single operating state of the mechanical joint may be reached with one or more of actuator arrangements and throttling settings.

Abstract: A system comprising a housing containing a signal generator coupled to an antenna and a dielectric material disposed about the antenna. The device is adapted to generate and direct a plurality of signals towards the heart of the person and measure a magnitude of a signal returned from the heart. The device further comprises a processor to compare differences between a magnitude of a signal propagated and the magnitude of the signal returned off the heart and determine a signal frequency having a maximum return loss value based on those differences. The processor also estimates a change in the amplitude of motion of a portion of a wall of the heart based on the differences between the magnitude of the signal propagated by the device and the magnitude of the signal returned off of the portion of the heart.

Abstract: A light diffusing composition that optimizes image clarity from a SSID comprising a translucent matrix further comprising a plurality of hollow micro-particles. The plurality of hollow micro-particles are dispersed throughout the translucent matrix and a fluid is disposed within the hollow micro-particle. A refractive index of the fluid within the hollow micro-particle is different than a refractive index of the translucent matrix.

Abstract: A miniature unidirectional valve configured to restrict the free flow of fluid through the valve includes a valve body having an inlet and an outlet. A flexible membrane is movably disposed over the inlet and outlet, and movable between an open position and a closed position. The flexible membrane is movable by a pressure from the inlet to move the membrane to the open position. A control chamber is disposed in the valve body adjacent the fluid flow path, and configured to apply a pressure against the membrane to move the membrane to the closed position to restrict fluid flow through the valve. A preload structure is associated with the flexible membrane, and biases the flexible membrane toward the closed position.

Abstract: A catheter configured for imaging objects substantially in focus is described herein. An imaging device is disposed on the distal end of the catheter. The imaging device has an effective focal plane that is located in front of the imaging device. The catheter also includes a transparent focal instrument that has an outer periphery that is positioned at the effective focal plane of the imaging device, to enable objects in contact with the outer periphery of the transparent focal instrument to be imaged substantially in focus.