Patent application number | Description | Published |
20080240074 | Self-synchronized Streaming Architecture - Synchronization of downlink streaming data is performed by estimating the likelihood of an underflow or an overflow in an output buffer upon receipt of each encoded data frame to determine if synchronization will be needed. After each encoded data frame is decoded it is then synchronized if the estimate indicated synchronization would be needed. Synchronization of uplink steaming data is performed by estimating the likelihood of an underflow or an overflow in an input buffer upon sending of each encoded data frame to an output modem for transmission to determine if synchronization will be needed. If needed, synchronization will be performed later on a portion of data samples taken from the input buffer that are used to form a frame of un-encoded data samples. | 10-02-2008 |
20080247568 | UPLINK NOISE CANCELLATION - A system comprising audio logic adapted to convert captured sound into an audio signal. The system also comprises transmission logic which causes noise to be added to the audio signal. The system further comprises processing logic adapted to at least partially remove the noise from the audio signal by subtracting a noise waveform from the audio signal to produce a result signal. The processing logic generates the noise waveform using power level information associated with the transmission logic. The transmission logic transmits the result signal to another electronic device. | 10-09-2008 |
20080279392 | REDUCING SOUND PRESSURE OF NOISE - A system comprising converter logic that introduces noise to a signal. The system also comprises amplifier logic that reduces a sound pressure associated with the noise by amplifying the signal prior to providing the signal to the converter logic and de-amplifying the signal after providing the signal to the converter logic. | 11-13-2008 |
20090088224 | ADAPTIVE VOLUME CONTROL - A system comprising processing logic and sound-capturing logic coupled to the processing logic. The sound-capturing logic provides a captured signal to the processing logic. The captured signal is associated with a property. Transceiver logic is coupled to the processing logic. The transceiver logic provides a received signal to the processing logic. The received signal is associated with a volume. Using a compression technique, the processing logic adjusts the volume in accordance with the property. | 04-02-2009 |
20090088226 | ESTIMATION OF POWER LEVEL IN A COMMUNICATION DEVICE - A system comprising a first communication device and a second communication device adapted to determine a property of communications between the first and second communication devices. The second communication device estimates a power level associated with the first communication device for a length of time determined according to the property. | 04-02-2009 |
20100046772 | SOUND LEVEL CONTROL - A system and method for controlling a sound level of a mobile audio device are disclosed herein. In accordance with at least some embodiments, a system includes a transducer, a phase estimator, and a sound level control. The transducer converts an electrical signal applied to the transducer into audible sound. The phase estimator estimates a phase difference between a voltage and a current of the electrical signal applied to the transducer. The sound level control controls the loudness of sound produced by the transducer based, at least in part on the estimated phase difference. | 02-25-2010 |
20100191788 | Multiplier with Shifter - A digital system has a memory configured to hold operands and a multiply-shift unit coupled to the memory and configured to receive a first operand and a second operand from the memory in parallel, wherein the first operand includes a concatenated encoded shift amount. The multiply-shift unit includes a multiplier configured to receive the first operand after being separated from the concatenated encoded shift amount and to form a quotient from the two operands. A shifter is coupled to receive the quotient and to shift the quotient by an amount indicated by the encoded shift amount and to thereby form a shifted quotient on an output of the multiply-shift unit. | 07-29-2010 |
20100315211 | Tactile Interface for Mobile Devices - A tactile input to a system having a speaker located in an enclosure with an audio port can be detected by generating a sound wave in response to a signal and sensing the phase relationship between the current phase and the voltage phase of the signal. While the audio port is open a baseline current and voltage phase difference is established. When the audio port is obstructed by a finger touch, the current and voltage phase difference is altered in response to the obstruction. While the altered phase difference is detected, a tactile event is indicated. | 12-16-2010 |
20110093629 | Control Function for Memory Based Buffers - Instantiating a plurality of buffers in a random access memory by storing in the random access memory (RAM) a plurality of descriptors each containing a base address, at least one address pointer and a size to define a corresponding one of the plurality of buffers. Transferring data in any one of the plurality of buffers by using a control function within an accessing module to generate a buffer address by accessing and updating the address pointer in the corresponding descriptor. In a processor that accesses the circular buffers, the control function is one or more complex instructions tailored for computing read and write addresses to access the circular buffer using fields within the corresponding descriptor. In a DMA module that accesses the circular buffers, the control function is a hardware controller that computes read and write addresses using the fields within the corresponding descriptor to access the circular buffer. | 04-21-2011 |
20120177213 | ACTIVE NOISE-CANCELLATION FEEDBACK SIGNAL TRANSMISSION - A noise-cancelling system includes headset for generating a feedback signal for noise-cancellation in response to sound externally generated from the headset. An encoded microphone signal is generated in response to the first feedback signal. An audio generator can be used to generate a noise-cancellation signal in response to the encoded microphone signal and to generate an electronic audio signal in response to the encoded microphone signal and a first output audio signal. An audio connector is provided to couple the encoded microphone signal from the headset to the audio generator and to couple the first electronic audio signal to the headset. | 07-12-2012 |
20130107930 | METHODS AND SYSTEMS FOR CLOCK DRIFT COMPENSATION INTERPOLATION | 05-02-2013 |