Abstract:
Embodiments of the present invention recite a method and system for improving the fidelity of a dialog system. In one embodiment, a first input generated by a user of a first system operating in a first modality is accessed. In embodiments of the present invention, the first system also generates a first output corresponding to the first input. An second input from a second user, who is engaged in a conversation with the first user, is accessed by a second system. The second input is then utilized to modify the first output of the first system.
Abstract:
The subject specification comprises enhanced communication infrastructure for a multi-tier hierarchical smart distribution grid (SDG). The SDG comprises a specified number of distribution network node controller (DNNC) components employed to desirably control communications and power distribution between respective tiers of the SDG to facilitate efficient power distribution. When communication between the a DNNC in one tier and another DNNC in another tier, is desired, the DNNC can identify available communication channels and respective communication conditions of the available communication channels, and can dynamically select a subset of available data and preferred communication channel, based at least in part on predefined control criteria, to control data transmission loads in the network and facilitate real time control of the SDG. Data can be communicated via the selected communication channel. Respective DNNCs can desirably control power distribution for respective tiers, minimizing upper tier involvement in lower tier power distribution.
Abstract:
Examples of achieving quality of service in a wireless local area network via meeting communication channel performance criteria to include a minimum signal-to-noise plus interference ratio and a proportional fairness limit are disclosed.
Abstract:
Embodiments of the present invention recited a method and system for modifying a media stream. In one embodiment, a request is received to modify a media stream from a current display rate to a desired display rate. In response to the request, the media stream dynamically processed to create a modified media stream which is compliant with a pre-determined frame-rate limitation and with a pre-determined bit-rate limitation.
Abstract:
Methods and systems thereof for monitoring the performance of a streaming media server are described. Server-side measurements are performed with the server operating under a load. Client-side measurements are performed along with the server-side measurements. Data from the server-side measurements and data from the client-side measurements are aligned by time.
Abstract:
A method for handing off to a second server, in either a fixed or mobile streaming media system, a multiple description streaming session between a first server and either a fixed or mobile client. In one embodiment, the present invention recites selecting a second server to receive a handoff of a multiple description streaming media session between the first server and the client. In this embodiment, the multiple description streaming media session is comprised of a first multiple description bitstream and a second multiple description bitstream. The present embodiment further recites receiving at the second server, the second multiple description bitstream for streaming to the client. This embodiment further recites sending the second multiple description bitstream from the second server to the client.
Abstract:
Methods and devices for streaming multiple media streams are described. A plurality of media streams is received. A media stream is selected. In one implementation, a service is performed on each of the media streams except for the selected media stream. The service reduces the respective bandwidth of each media stream (except for the selected media stream) so that the total bandwidth of the media streams is reduced. The media streams including the selected media stream are then streamed to their destination. The media streams other than the selected media stream are streamed at less than their initial bandwidth, while the selected media stream is streamed at its initial bandwidth.
Abstract:
The location of large caches of memory located at the network server platform can reduce traffic on the network trunks or Internet backbone. In some instances these memory caches might be located at the facilities management platform. Those users supported on a specific network server platform no longer would be required to download regularly used information from the Internet backbone minimizing congestion on the network. These memory caches can be supplemented or refreshed with new data on a regular basis based on the requirements or changing requirements of the users. The close location of regularly accessed data allows for faster downloads and minimizes congestion on the communication network. In addition to user requested information, push information can be stored in these caches for fast downloading to the users.