Methods, systems and computer program products are provided for aggregating a active speaker channels, receiving, through an input interface, a selection of a solo speaker channel representing one of the plurality of speaker channels and setting the audio level of any one of the solo speaker channel and at least one non-solo speaker channel, or a combination of both the solo speaker channel and the at least one non-solo speaker channel.

Multiple simultaneous calls are controlled. At least one processor is used to display an interface including indicators corresponding to at least two audio presentation devices. Each interface includes call contextual controls which change according to the state of a call. A swap control swaps an active call between the audio presentation devices corresponding to the indicators.

A method for optimizing speech pickup in a speakerphone system, wherein the speakerphone system comprises a microphone system placed in a specific configuration, wherein the method comprising receiving acoustic input signals by the microphone system, processing said acoustic input signals by using an algorithm for focusing and steering a selected target sound signal towards a desired direction, and transmitting an output signal based on said processing.

Multiple simultaneous calls are controlled. At least one processor is used to display an interface including indicators corresponding to at least two audio presentation devices. Each interface includes call contextual controls which change according to the state of a call. A swap control swaps an active call between the audio presentation devices corresponding to the indicators.

Multiple simultaneous calls are controlled. At least one processor is used to display an interface including indicators corresponding to at least two audio presentation devices. Each interface includes call contextual controls which change according to the state of a call. A swap control swaps an active call between the audio presentation devices corresponding to the indicators.

An audio processing scheme is described. In an example, an apparatus comprises: at least two acoustic sensors through which audio content is received; at least one other sensor; an audio processor connected to the sensors and configured to receive audio information from the acoustic sensors and other information from the other sensor. The audio processor is configured to determine a use case of the apparatus based on the audio information and the other information. The audio processor is configured to adjust at least one audio processing scheme for the apparatus based on the determined use case. In other examples, a method and a computer program product are described.

A method for optimizing speech pickup in a speakerphone system, wherein the speakerphone system comprises a microphone system placed in a specific configuration, wherein the method comprising receiving acoustic input signals by the microphone system, processing said acoustic input signals by using an algorithm for focusing and steering a selected target sound signal towards a desired direction, and transmitting an output signal based on said processing.

An integrated circuit may include an output for providing a signal to a transducer including both source audio for playback to a listener and an anti-noise signal for countering the effects of ambient audio sounds in an acoustic output of the transducer, a microphone input for receiving a microphone signal indicative of ambient sounds at the transducer, a link control input for receiving link control information of a communications link coupling the integrated circuit to the transducer and/or a microphone for generating the microphone signal, wherein the link control information includes a link quality metric of the communications link, and a processing circuit comprising a filter having a response that generates the anti-noise signal in conformity with the microphone signal to minimize the ambient sounds at the acoustic output of the transducer, wherein the processing circuit modifies generation of the anti-noise signal responsive to the link quality metric.

Multiple simultaneous calls are controlled. At least one processor is used to display an interface including indicators corresponding to at least two audio presentation devices. Each interface includes call contextual controls which change according to the state of a call. A swap control swaps an active call between the audio presentation devices corresponding to the indicators.

Multiple simultaneous calls are controlled. At least one processor is used to display an interface including indicators corresponding to at least two audio presentation devices. Each interface includes call contextual controls which change according to the state of a call. A swap control swaps an active call between the audio presentation devices corresponding to the indicators.