Abstract: A method for making a solid state cathode comprises the following steps: forming an alkali-free first solution comprising at least one transition metal and at least two ligands; spraying this solution onto a substrate that is heated to about 100 to 400° C. to form a first solid film containing the transition metal(s) on the substrate; forming a second solution comprising at least one alkali metal, at least one transition metal, and at least two ligands; spraying the second solution onto the first solid film on the substrate that is heated to about 100 to 400° C. to form a second solid film containing the alkali metal and at least one transition metal; and, heating to about 300 to 1000° C. in a selected atmosphere to react the first and second films to form a homogeneous cathode film. The cathode may be incorporated into a lithium or sodium ion battery.

Abstract: A method for presenting multi-media contents on a specific communication device is disclosed. The method includes detecting a multi-media content channel currently tuned by the specific communication device; and in addition to a specific multi-media content corresponding to a specific channel number currently tuned by the specific communication device, presenting an information communication user interface.

Abstract: Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). A substrate having a surface to be coated is provided. A self-assembled monolayer (SAM) template is disposed on the surface to be coated. A precursor comprising a precursor molecule is provided, with the precursor molecule being a polycyclic aromatic hydrocarbon (PAH) and discotic molecule. The precursor is dissolved to form a solution. The solution is applied to the substrate having the SAM template disposed thereon. The precursor molecule is photochemically attached to the SAM template. The substrate is heated to at least 450 degrees C. to form a graphene-inclusive film. Advantageously, the graphene-inclusive film may be provided directly on the substrate, e.g., without the need for a liftoff process.

Abstract: A surgical system includes a surgical instrument including a conducting section transmitting ultrasound vibration generated by an ultrasound transducer to a distal end portion and transmitting a high-frequency output signal to the distal end portion, an ultrasound drive section outputting an ultrasound drive signal to the ultrasound transducer, a high-frequency output section outputting a high-frequency output signal to the conducting section, a detection section detecting an ultrasound impedance of a surgical site to which ultrasound energy and high-frequency energy are provided from the distal end portion by outputting both signals simultaneously to the surgical instrument, a determination section determining whether the detected ultrasound impedance is in a predetermined range, and a control section performing control to increase a high-frequency output value by a first predetermined amount or decrease the high-frequency output value by a second predetermined amount when the detected ultrasound impedance i

Abstract: The present invention discloses a brightness compensation method. The brightness compensation method includes controlling a plurality of backlights of a plurality of display areas to turn on with a plurality of backlight intensity; calculating a plurality of total backlight intensity; calculating a plurality of actual backlight intensity according to the plurality of total backlight intensity and a backlight scanning ratio; dividing a plurality of maximum backlight intensity when the plurality of backlights are fully turned on by the plurality of actual backlight intensity, to generate a plurality of compensation gains; and displaying a compensated image data with a plurality of compensated image intensity after compensating a plurality of image intensity corresponding to the plurality of display area of an image data with the plurality of compensation gains.

Abstract: Method, apparatus and systems for driving electroluminescent segments in electroluminescent displays are disclosed. Each segment in the display receives a series of first pulses alternating in polarity at a first electrode and a series of second pulses at a second electrode. Each of the second pulses corresponds to one of the first pulses and is opposite in polarity. The width of the second pulses corresponds to the parasitic resistance of the segment.

Abstract: An interactive electronic toy includes a body, a sensor module, a data storage module, an output module and a processing unit. The sensor module generates sensing signals when the body is being operated. The data storage module has stored therein standard status parameters each having an accurate response signal. The processing unit runs an operation mode subject to the steps of: receiving the sensing signals and processing the sensing signal into an actual parameter, receiving the standard status parameters, matching the actual parameters with the standard status parameters, and outputting to the output module the accurate response signal of the standard status parameter that matches the actual parameter.

Abstract: A back contact configuration for a CIGS-type photovoltaic device is provided. The back contact configuration includes an interfacial seed layer, made up of one or more layers/sublayers, disposed between a Mo based rear contact/electrode and a CIGS inclusive semiconductor absorber. The interfacial seed layer may be of or include one or more element(s) that make up, or help make up, the CIGS inclusive semiconductor absorber. Various methods and compositions of the interfacial seed layer are disclosed, including a seed layer comprising metallic and/or substantially metallic Cu—In—Ga, CIGS, and/or a stack of alternating layers of or including Cu, In and Ga. Methods for making the back contact configuration, including an interfacial seed layer, are also provided.

Abstract: Various embodiments are directed to a method for fulfilling orders from an inventory comprising serialized products. For example, a computer system may receive an order and derive from the order a plurality of products, a unit quantity for each of the plurality of products, and a serial identifier referencing a first product unit of at least one of the plurality of products. At least one of the plurality of products may be a non-reserved product. Also, the computer system may determine a first bin selected from a plurality of non-reserved product bins that is associated with product units of the non-reserved product and generate a pick instruction specifying the first bin and the unit quantity of the non-reserved product specified by the order. The computer system may also instruct a robot to retrieve the first product unit from one of the plurality of robot accessible bins.

Abstract: An integrated process control installation is provided for electric induction metal melting furnaces with variable furnace states. The integrated process control installation can include supporting charge delivery and slag removal installations, and furnace process operations for process control of melting metal in the furnaces. The variable furnace states, supporting installations, and furnace process operations are controlled by a supporting processing installation, while a robotic apparatus performs the furnace process operations.

Abstract: Glucagon receptor antagonist compounds are disclosed. The compounds are useful for treating type 2 diabetes and related conditions. Pharmaceutical compositions and methods of treatment are also included.

Abstract: A grab bar or other accessory is attached to a wall with at least one anchor assembly. The anchor assembly can be removed and repeatedly used as needed. The anchor assembly includes a vertical support beam, an arm having a hub portion and an arm portion, and a mounting plate that is supported by the arm. The arm portion is received within a slot formed within the vertical support beam. A spring is attached to the vertical support beam and cooperates with the arm portion to hold the arm in place during installation. The mounting plate includes a plurality of hole locations spaced radially outwardly from a center opening. The mounting plate is rotatable to position the plurality of hole locations at one of many different desired mount positions for a variety of grab bars.

Abstract: A method of dispatching and transmitting data stream, which is used for a memory storage apparatus having a non-volatile memory module and a smart card chip, is provided. The method includes configuring a plurality of logical block addresses, and a plurality of specific logical block addresses are used for storing a specific file. The method also includes receiving a response data unit from the smart card chip and storing the response data unit in a buffer memory. The method also includes, when a logical block address corresponding to a read command from a host system belongs to one of the specific logical block addresses and the buffer memory stores a response data unit, transmitting the response data unit stored in the buffer memory to the host system. Accordingly, the method can make the host system to correctly receive the response data unit from the smart card chip.

Abstract: In a method of a touch panel determining multi-touch, the touch panel can determine if a sensing channel having a local minimum of a sensing value is the last sensing channel having the sensing value, or determine if sensing channels having the sensing value larger than a threshold generated according to a maximum are successive sensing channels, so as to determine the number of touch points on the touch panel. In addition, the touch panel can find a first local maximum and a second local maximum from the sensing values of the sensing channels, and compare the first local maximum and the second local maximum with a first reference and a second reference, so as to confirm the number of touch points on the touch panel.

Abstract: A data merging method for merging data belonging to a first logical block in a rewritable non-volatile memory module is provided. The method includes getting a second physical block from a free area of the rewritable non-volatile memory module and determining whether a valid logical page number is smaller than a predetermined number. The method also includes, when the valid logical page number is smaller than the predetermined number, storing a corresponding page mapping table in a start physical page of the second physical block and writing at least one valid page data belonging to the first logical block into at least one physical page of the second physical block. Accordingly, the method can effectively shorten the time for merging data.

Abstract: An ultra-precision register control method in a continuous roll-to-roll printing process for manufacturing electronic devices via a feedforward register control logic, which compensates for and eliminates additional register errors attributable to variations in the speed of upstream printing cylinders. When used in combination with a conventional feedback register control logic, the feedforward register control logic accomplishes a register control with ultra-precision in a continuous roll-to-roll printing process, and enables implementation of a continuous roll-to-roll printing process for manufacturing electronic devices, for which a roll-to-roll printing process was formerly unavailable.

Abstract: A command executing method for a memory storage apparatus and a memory controller and the memory storage apparatus using the same are provided. The method includes, during a data merging operation, receiving a write command and a write data corresponding to the write command from a host system. The method also includes temporarily storing the write data into a buffer memory, and at a delay time point, transmitting a response message to the host, the delay time point is set by adding a dummy delay time to a time point that the operation of writing the write data into the buffer memory is completed. Accordingly, the method can effectively level the response times of executing write commands during the data merging operation, thereby shortening the maximum access time.

Abstract: A method and process for at least partially forming a medical device that is at least partially formed of a novel metal alloy which improves the physical properties of the medical device.

Abstract: An interpolation method, applied to image pictures, for interpolating at least one pixel into a position to be interpolated in a target image frame is disclosed. The interpolation method includes receiving a plurality of image fields having a corresponding image object, estimating a motion speed of the image object according to a distance between a first pixel position to which the image object located in a first image field of the plurality of image fields and a second pixel position to which the image object located in a second image field of the plurality of image fields, determining the pixel from the plurality of image fields according to the motion speed of the image object, and interpolating the pixel into the position to be interpolated in the target image frame.