Abstract: Process for producing benefit/risk evaluation data relating to radiation therapy in patients comprising the following stages: production of imaga data on the spatial positional distribution of relevant organ and tissue parts; production or selection of radiation data; production of radiation dose distribution data; storage of a plurality first rules; fetching of suitable first rules; storage of a plurality of second rules; fetching and application of suitable second rules; production of benefit/risk evaluation data based on the total radiation effect data produced; and fetching of suitable radiation data.

Abstract: A temperature-compensated high-speed timing circuit, which is particularly advantageous in read-interface circuits for disk-drive interface. The voltage on the integrating capacitor is compared against a voltage defined by the drop, on a resistor, induced by a current which is the combination of a reference current from a reference current generator with a temperature-dependent current from another current generator.

Abstract: A device to detect the location of a magnet coupled to an indwelling medical device within a patient uses three or more sets of magnetic sensors each having sensor elements arranged in a known fashion. Each sensor element senses the magnetic field strength generated by the magnet and provides data indicative of the direction of the magnet in a three-dimensional space. The device uses fundamental equations for electricity and magnetism that relate measured magnetic field strength and magnetic field gradient to the location and strength of a magnetic dipole. The device uses an iterative process to determine the actual location and orientation of the magnet. An initial estimate of the location and orientation of the magnet results in the generation of predicted magnetic field values. The predicted magnetic field values are compared with the actual measured values provided by the magnetic sensors.

Abstract: An apparatus and method for accumulating specified weights of objects, such as apples, and delivering them to a plurality of off-load conveyors, the off-load conveyors delivering the apples to chutes which can then guide the apples into a single bagging apparatus. The flow of the apples on the chutes is controlled by a gate overlying all the chutes and a speed control brush that rotates at a desired speed to control the flow rate of the apples down the chute into the bagger. The apparatus and method are controlled by the interaction of a computer and a programmable logic controller.

Abstract: A flat photoluminescent lamp has external walls and a plurality of internal walls designed to form a serpentine channel having first and second ends. First and second electrodes, positioned in proximity with the first and second ends of the serpentine channel generate a plasma discharge therebetween in response to the application of power to the electrodes. A heater element, comprising a thick film cermet material is disposed on the bottom external surface of the lamp. The heater element is serpentine in shape and substantially follows the path of the serpentine channel. Disposed on opposite sides of the heater element are serpentine conductors, also comprising a thick film cermet material. A DC voltage is applied to the heater element to maintain the internal temperature of the lamp at a desired temperature value. A temperature sensing element may also be used to control the power applied to the heater element.

Abstract: A current amplifier includes a cascode transistor for fixing the voltage of an input of the amplifier; a first constant current source connected between the input and a first supply voltage; a second constant current source, for providing a current lower than the first current source, connected between a second supply voltage and the cascode transistor; a second transistor, of different type than the cascode transistor, connected between the input and the second supply voltage, and controlled by the node between the cascode transistor and the second current source; and an output transistor of same type as the second transistor, connected to the second supply voltage and controlled by the node.

Abstract: A planar fluorescent lamp having a resistive trace and optically transmissive cover electrodes is described. In one embodiment, the lamp includes an insulative lamp body with the transparent cover electrodes supported by the lamp cover. The resistive trace is supported by the base, either as an exterior resistive trace or within the lamp. The resistive trace acts as a heating element by producing heat in response to an electric current passed through the resistive trace. Because the resistive trace is in thermal contact with the lamp body, heat produced by the resistive trace heats the lamp, improving cold starting. The cover electrodes and, in some embodiments, the resistive trace, are used to control electric fields within the lamp body by applying voltage potentials between discrete cover electrodes or between the cover electrodes and the resistive trace. The controllable electric fields improve cold starting and uniformity of light during low light operation.

Abstract: A small fluorescent lamp having improved efficiency is described. The lamp includes a lamp body having a serpentine channel therein. The serpentine channel is arcuate in cross section with a fluorescent coating covering the serpentine channel but not the lamp cover to produce an aperture effect. The serpentine channel is reflective such that the cross section forms an aperture effect lamp to improve efficiency. Efficiency is further improved by raising the pressure within the lamp to 70-120 torr. Further efficiency is obtained by limiting the depth of the serpentine channel relative to the width of the serpentine channel such that the electrical discharge is confined within a small cross sectional area. In one embodiment, secondary housings are attached to the lower surface of the lamp to conceal the electrodes beneath the lamp, thereby improving the uniformity of the lamp.

Abstract: A fire hydrant lifting harness includes a lifting triangle, a pair of connecting cables, and a pair of rigid paddles. The lifting triangle includes two bracing members, one each at two corners, forming eyelets therein. For each eyelet, a cable passes through it and the cable is wound around itself. The other end of each cable is attached to a respective lifting paddle in a similar manner. The paddle is made from a rigid material and includes a bend, between the two ends, so that the paddle does not contact the head of the fire hydrant. The end of the paddle opposite from where the cable connects includes an aperture designed to accommodate one of the ports from the fire hydrant. For lifting, the port cap is removed, the paddle is placed around the port and against the hydrant, and the port cap replaced. A lifting force then raises the fire hydrant lifting device which in turn raises the fire hydrant.

Abstract: A bread making machine having an automated dispenser unit and a pause function is described. The automated dispenser unit is integrated within a chamber lid covering a bread making chamber in which bread making ingredients are mixed, kneaded, and baked. The automated dispenser accepts certain ingredients, such as fruit and/or nuts, which are automatically added to the bread making chamber after significant processing of other ingredients in the bread making chamber has occurred. The automatic dispenser unit includes a dispenser door adjacent to the bread making chamber. The dispenser door is held in a closed position by a latch assembly. The latch assembly is mechanically linked to a solenoid core, which moves in response to a control signal issued by electronic control circuitry, causing the dispenser door to open. The bread making machine includes a pause function, which allows a user to temporarily suspend the bread making operation at any time, by pressing a pause key on a user interface keyboard.

Abstract: An electroluminescent panel is formed on a conductive baseplate by a pair of electrodes that are electrically insulated from the baseplate. The first electrode is a base electrode that acts as the hot electrode. The second electrode is a transparent conductive cover electrode. The cover electrode is grounded to act as a reference electrode. An electroluminescent layer formed from a phosphor-impregnated glass separates the base electrode and cover electrode. Upon application of a voltage between the base electrode and cover electrode, the electroluminescent material emits light that is transmitted through the cover electrode toward a viewer. A passivation layer covers the cover electrode to protect and insulate the cover electrode. In one embodiment, the baseplate is grounded and the cover electrode is referenced to ground through a ground fault interrupt sensor. In another embodiment, a graphical layer overlays the cover electrode, beneath the passivation layer, to present a decorative or informative image.