A system can receive, over one or more networks, location data from a computing device of a requesting user, where the location data indicates a current position of the requesting user. The system can determine a rendezvous location for the requesting user prior to the requesting user transmitting a service request to the network computer system. The system may then transmit, over the one or more networks, data corresponding to the rendezvous location to the computing device of the requesting user.

An information processing device according to an aspect of the present technology includes a storage unit that stores HRTF data corresponding to a plurality of positions based on a listening position; and a sound image localization processing unit that performs a sound image localization process on sound data of an utterer by using the HRTF data according to an utterance situation of a participant participating in a conversation via a network. The present technology can be applied to a computer that performs remote conference.

In example implementations, an apparatus is provided. The apparatus includes a microphone, a radar, a memory, and a processor in communication with the microphone, the radar, and the memory. The microphone is to receive audio signals. The radar is to collect data on users in a location. The memory is to store known body positions associated with having a side-conversation. The processor is to determine that a user is having a side-conversation based on the data collected by the radar compared to the known body positions associated with having a side-conversation and filter noise associated with the side-conversation received by the microphone from a direction associated with the user.

Examples of systems and methods for bridging virtual and physical spaces are described. In some of these examples, a particular communicant's real world state drives changes in one or more of the communications connections, virtual state, and communications interface of the particular communicant or another communicant.

The personal alarm device communicates with emergency personnel, such as an emergency dispatcher at 911, and emergency contacts. The user depresses an emergency button that initiates communication with the emergency personnel and the emergency contacts. A covering, such as an outer rim or bezel, covers the emergency button, to limit access to the emergency button. The user rotates the covering to align an opening in the covering with the emergency button. Pressing the emergency button transmits communications to emergency personnel and the emergency contacts. These communications include a phone call, a recorded message, a text message, or other message. The alarm device also provides a light and speaker to assist the user. The speaker plays the audio of the phone call and plays an alarm to alert others in the vicinity of the user.

A cloud-based real-time crime center with dispatch directed digital media payloads configured to support both emergency dispatchers and emergency responders responding to an incident requiring assistance. The new dispatch system is “cloud-based” in that it provides a central hub or repository for gathering live video streams and data streams that are processed to fuse them together to provide a map-based interface for the dispatcher to access via a desktop or other computing station at a central agency location and for the responders in the field to access via vehicle-mounted or portable client devices. The dispatch system processes the video and data streams to generate a dispatch directed payload that includes data and video relevant to the identified incident and that can be readily communicated (due to its reduced or controlled size) to field responders to make their response more effective and to increase both the safety of the responders and those involved in the incident.

A method for communicating location information to a device includes receiving, at a computer system that implements a social networking service, location information that represents a geographic location of a device associated with a first user; associating, by the computer system, the received location information with a profile associated with the first user; and sending, from the computer system to a device associated with a second user, a message that is generated based at least in part on the location information.

Product offering systems are provided. Product offering systems may include sending an offer to a customer that possesses a mobile computing device and has agreed to receive offers for products via the mobile computing device. Agreeing to receive offers would result in the unique data about the customer being available to offer provider. Unique customer data may include data related to the customers wireless service provider or from a financial account in a financial institution, and collecting customer data about the customer, wherein the customer data comprises financial data and personal data. Product offering systems may further include registering a wireless computing device of the customer to able the device to receive the offer, and determining opportunities to send the offer to the customer by monitoring the customer and the customer data. Product offering systems may also include sending the offer to the customer's registered device based on the determination of opportunities.

A method and system are disclosed for determining the geographic location of a user communicating on a communications network such as the Internet. In one embodiment, a provider of a product or service: (a) receives the user's phone number (or other identification for contacting the user's station), and (b) supplies the user's station with a distinctive identifier. The provider then supplies a location determining service with the user's phone number (or other identification). A phone call is made to the phone number by the location determining service for retrieving the distinctive identifier from the network station having the phone number. If the distinctive identifier is retrieved and the location determining service determines that the user's station is within an appropriate geographical area (or not within an inappropriate area), then the provider can provide the requested product or service to the user.

Enhancements of and to cell phone operations are based in whole or in part on determining the location of the cell phone. Systems and methods select and determine locations or areas of importance or relevance, and based on that information and other programmed factors affect or alter the operations of the cell phone. While the systems and methods are illustrated by use of cell phone embodiments and applications, they are equally applicable to virtually any portable or mobile communication device, including for example, wireless laptop computers and PDAs.