Audiovisual reproduction system comprising a central unit managing a sound control circuit, and a telecommunications modem connected to a distribution network controlled by a host server, through a multitask operating system created around a tools and services library, characterized in that the operating system comprises a function that adjusts the sound control circuit to couple volumes in the various areas in which the loudspeakers in the audiovisual reproduction system are used, this function being accessible through a management mode of the multitask operating system, the coupling maintaining the ratios between the various volumes in each area when the volume in one area is modified.

Audiovisual reproduction system

A digital downloading jukebox system including a mechanism for delivering custom services to a recognized user, including services for creating playlists, communicating with others, accessing other features, etc. is provided. In some exemplary embodiments, after a user is recognized, the jukebox system allows users to access a special front-end via an Internet-enabled device or on an actual jukebox. Then, the user may, for example, create playlists, share songs with friends, send messages to friends, and access other value-added content. Such a system preferably learns about networks of friends, and enables managers to send similar messages to regular customers and/or others known to the system. In some exemplary embodiments, changes via a first user interface on a first device are reflected on second user interface on other properly-configured devices.

Digital downloading jukebox system with user-tailored music management, communications, and other tools

A method for classification recognition of gestures and gesture primitives in a touch-based user interface. In an implementation the method comprises receiving tactile image data responsive to data generated from user touch of a user touch interface comprising a sensor array. The tactile image data is processed to create a plurality of numerical values responsive to data generated from the user touch interface. These numerical values are applied to a principle component analysis operation to produce a reduced-dimensionality data vector which is applied to a classifier having a plurality of classifier outputs interpretable as probabilities. The classifier outputs provide likelihoods that an execution gesture is from a collection of pre-defined gestures, and a decision test is used to produce a decision output indicating a gesture outcome useful in user interface applications. The arrangement can recognize single finger “6D” actions of roll, pitch, yaw, left-right, forward-back, and variations in applied pressure.

Sequential classification recognition of gesture primitives and window-based parameter smoothing for high dimensional touchpad (HDTP) user interfaces

A digital downloading jukebox system including a mechanism for delivering custom services to a recognized user is provided. For example, information specific to a recognized user may be stored and optionally may include a recognized user avatar representative of the recognized user. The user avatar may be an image, video, and/or animation, which may be displayed on and/or played through the jukebox. The user avatar may be associated with transactions associated with the user. For example, an avatar may be displayed when a playlist of the recognized user is played, when a message is sent, etc. In other examples, the avatar may introduce instances of media by playing an audio and/or video message, and the avatar may sing, dance, etc. while an instance of media is playing.

Jukebox with customizable avatar

A high dimensional touchpad (HDTP) controls a variety of computer windows systems and applications by detecting a user's finger movement in the left-right, forward-backward, roll, pitch, yaw, and downward pressure directions. Measurements obtained from the touchpad of at least two attributes of finger movement at two different time intervals are used to provide a first and a second finger position attribute used to control an application on an electronic device. The finger roll angle is determined by detecting the edge and the peak region of a finger contact area. Also, a visual color displayed in an application operating on an electronic device is controlled by a measured-angle value of a finger in contact with a touchpad.

Sensors, algorithms and applications for a high dimensional touchpad

A digital wavetable audio synthesizer is described. The synthesizer can generate up to 32 high-quality audio digital signals or voices, including delay-based effects, at either a 44.1 KHz sample rate or at sample rates compatible with a prior art wavetable synthesizer. The synthesizer includes an address generator which has several modes of addressing wavetable data. The address generator's addressing rate controls the pitch of the synthesizer's output signal. The synthesizer performs a 10-bit interpolation, using the wavetable data addressed by the address generator, to interpolate additional data samples. When the address generator loops through a block of data, the signal path interpolates between the data at the end and start addresses of the block of data to prevent discontinuities in the generated signal. A synthesizer volume generator, which has several modes of controlling the volume, adds envelope, right offset, left offset, and effects volume to the data. The data can be placed in one of sixteen fixed stereo pan positions, or left and right offsets can be programmed to place the data anywhere in the stereo field. The left and right offset values can also be programmed to control the overall volume. Zipper noise is prevented by controlling the volume increment. A synthesizer LFO generator can add LFO variation to: (i) the wavetable data addressing rate, for creating a vibrato effect; and (ii) a voice's volume, for creating a tremolo effect. Generated data to be output from the synthesizer is stored in left and right accumulators. However, when creating delay-based effects, data is stored in one of several effects accumulators. This data is then written to a wavetable. The difference between the wavetable write and read addresses for this data provides a delay for echo and reverb effects. LFO variations added to the read address create chorus and flange effects. The volume of the delay-based effects data can be attenuated to provide volume decay for an echo effect. After the delay-based effects

Monolithic PC audio circuit with enhanced digital wavetable audio synthesizer

A fully differential operational amplifier with improved common mode circuitry for low supply voltage applications is disclosed. The amplifier includes inventing and non-inventing inputs and dual-ended invented and non-invented outputs. The amplifier also includes source transistors for pulling the output to obtain particular output voltage swing. Connections between the inputs and outputs include DC biasing circuitry. The amplifier includes a transistor of select size and characteristics to compensate for voltage drop due to other transistors of the amplifier. Common mode circuitry of the amplifier provides a high level of common mode reconstruction.

Low voltage fully differential operational amplifier with improved common mode circuitry

An improved comparator circuit is provided for comparing two input signals and producing a resulting digital output. The comparator circuit uses a single cascode devices and current mirror circuit parallel coupled to two differential amplifier stages. One differential amplifier stage receives differential input signals and the other differential amplifier stage receives a variable reference voltage and a feedback voltage from the output of the comparator. The reference voltage is varied according to user requirements. The reference voltage can be varied to any voltage within the range of the input signals placed on the differential amplifier stage. Hysteresis differential voltage on the input differential amplifier stage can be accurately controlled by varying the biasing current and reference voltage placed on the hysteresis differential amplifier stage.

Voltage comparator with hysteresis

A monolithic integrated circuit for providing enhanced audio performance in personal computers is disclosed. The monolithic circuit includes a wavetable synthesizer; a full function stereo coding and decoding circuit (CODEC) including analog-to-digital and digital-to-analog data conversion; data compression, and mixing and muxing of analog signals; a local memory control module for interfacing with external memory; a game-MIDI port module; a system bus interface; and a control module for compatibility and circuit control functions.

Monolithic pc audio circuit

A phase-locked-loop circuit including a prescaler which divides the frequency of an output signal to thereby generate a frequency-divided signal which is provided as a feedback signal to a phase detector of the phase-locked-loop circuit. The prescaler includes a plurality of analog flip-flop circuits serially connected in a chain, with one or more outputs of latter analog flip-flop stages in the chain being fed back to one or more inputs of the first analog flip-flop. Embedded logic is integrated with the differential input pair of the first analog flip-flop to conditionally control the output of the first analog flip-flop based upon the feedback signals from the latter flip-flop stages. The analog flip-flop with embedded logic includes a master section for setting a state of a differential set up signal in response to an occurrence of a first phase of a clock signal. The master section includes a differential pair of transistors coupled to differentially control a flow current through a first and a second load during a second phase of the clock signal. First and second logic circuits are provided in the place of an input differential pair of transistors which control the flow of current through the first and second loads during the first phase of the clock signal. The first logic circuit includes a first transistor and a second transistor each connected to conduct current which flows through the first load. A second logic circuit may be similarly configured with third and fourth transistors which conduct a current which flows through the second load.

Geoffrey E. Brehmer

Papers

Monolithic PC audio circuit with enhanced digital wavetable audio synthesizer

Low voltage fully differential operational amplifier with improved common mode circuitry

Voltage comparator with hysteresis

Monolithic pc audio circuit

High speed analog flip-flop with embedded logic and phase-locked-loop circuit employing the same