Connectionless data transfer is disclosed. Authentication of a device and network node may be performed when data is sent from the device to an application server of an application service provider via a selected network. The transfer of data may take place in an absence of an existing device context between the network node interacting with the device and the core network through which the data travels. State management overhead and signaling overhead may be reduced by use of the exemplary aspects disclosed herein. For example, the device does not need to perform an authentication and key agreement (AKA) procedure to transfer the data and an existing (or pre-existing) device context need not be maintained at the core network.

Systems and methods for live sporting event wagering with data security and integrity are disclosed. At least one input capture device and at least one user device are constructed and configured in network communication with at least one computing platform. The at least one input capture device is configured to transmit live input data relating to a live sporting event to the at least one computing platform in real time or near real time. The at least one computing platform is configured to aggregate and analyze the live input data, thereby creating analyzed data. The at least one computing platform is further configured to set odds for wagering in the live sporting event based on the analyzed data in real time or near real time. The at least one user device is configured to display the odds, receive bets, and transmit the bets to the at least one computing platform.

A method of verifying IMEIs and chipset S/Ns of devices within a wireless communication network. The method comprises receiving a request from a device to access the wireless communication network and receiving an international mobile equipment identity (IMEI) and serial number (S/N) from the device, wherein the IMEI and S/N are included on a chipset of the device, and wherein the S/N is the S/N for the chipset. The method further comprises comparing the IMEI and S/N with a database to confirm the authenticity of the IMEI and S/N. Based upon the authenticity of the IMEI and S/N, the request is either granted or not granted for the device to access the wireless communication network.

Information apparatus and application software supporting printing over air or network are herein disclosed and enabled. The information apparatus may include one or more software components that include (1) a discovery component to discover a supported printer in a local area network (LAN) and to receive device information related to the printer (e.g., capability, language or format supported, identification) from the printer, and (2) a printing component to generate or obtain print data based on the device information received and to transmit the print data to the discovered printer. After establishing the connection to the LAN, application software (e.g., Internet browser, email, photos, documents) in the information apparatus may print digital content by using the discovery component to discover the printer in the LAN, and may use the printing component to obtain and transmit print data in a form that is acceptable to the printer for printing the digital content.

Information apparatus and application software supporting printing over air or network are herein disclosed and enabled. The information apparatus may include one or more software components that include (1) a discovery component to discover a supported printer in a local area network (LAN) and to receive device information related to the printer (e.g., capability, language or format supported, identification) from the printer, and (2) a printing component to generate or obtain print data based on the device information received and to transmit the print data to the discovered printer. After establishing the connection to the LAN, application software (e.g., Internet browser, email, photos, documents) in the information apparatus may print digital content by using the discovery component to discover the printer in the LAN, and may use the printing component to obtain and transmit print data in a form that is acceptable to the printer for printing the digital content.

A digital processing device capable of receiving an additional service is disclosed. In one aspect, a digital processing device includes i) an input unit, inputting a signal, ii) a subscriber identity unit, storing an identity code of a communication operator and generating a communication network access request message, iii) an additional service identity unit, storing an identity code of an additional service operator and generating an additional service request message and v) a control unit, generating a control signal allowing one of the subscriber identity unit and the additional service identity unit to be selectively driven. In accordance with at least one inventive embodiment, a user of the digital processing device can receive an additional service without his or her subscription to a specific communication operator and use various additional services in addition to the additional services provided by the subscribed communication operator.

A digital processing device capable of receiving an additional service is disclosed. In one aspect, a digital processing device includes i) an input unit, inputting a signal, ii) a subscriber identity unit, storing an identity code of a communication operator and generating a communication network access request message, iii) an additional service identity unit, storing an identity code of an additional service operator and generating an additional service request message and v) a control unit, generating a control signal allowing one of the subscriber identity unit and the additional service identity unit to be selectively driven. In accordance with at least one inventive embodiment, a user of the digital processing device can receive an additional service without his or her subscription to a specific communication operator and use various additional services in addition to the additional services provided by the subscribed communication operator.

A system and method for providing automatic setup of a remote patient care environment. Connectivity to a centralized server over a network connection is confirmed. Data reporting for a patient by one or more monitoring devices that are wirelessly connectable is induced through control provided through a user interface. Each of the devices is registered as the device attempts to establish a wireless connection and report the data conditioned on permission for access. Upon granting of the permission for access, the device is wirelessly connected and the data is subsequently received over the wireless connection.

A system and method for providing automatic setup of a remote patient care environment. Connectivity to a centralized server over a network connection is confirmed. Data reporting for a patient by one or more monitoring devices that are wirelessly connectable is induced through control provided through a user interface. Each of the devices is registered as the device attempts to establish a wireless connection and report the data conditioned on permission for access. Upon granting of the permission for access, the device is wirelessly connected and the data is subsequently received over the wireless connection.

A technique for combining transmission bandwidths of several communication devices, such as mobile stations (MS1, MS2) is disclosed. A master mobile station (MS1) establishes (7-0) a WLAN access point communicating with WLAN client terminals (CT). One or more slave mo-bile stations (MS2) may detect a predefined network identifier and join the WLAN network. The master (MS1) as-signs IP addresses for the client terminals (CT) and slave mobile stations (MS2). The master also resolves DNS queries in cooperation with external DNS servers. Traffic, including internet packets (IP1-IP4), between the client terminals and various internet hosts (HO) is tunneled over multiple simultaneous transmission paths (7-6, 7-8; 7-18, 7-22) between the master (MS1) and a multiplexing/demultiplexing computer (SM). The inventive band-width combination technique is transparent to the client terminals (CT) and the internet hosts (HO).