Abstract: A right-hand circular polarized antenna and associated methods. In one embodiment, a quarter-wave antenna configuration is used within a small form factor portable device (e.g. wristwatch). The antenna comprises a radiator element which operates in as a linear polarized antenna while the device is operating in free space. However, when the device is attached to a user (e.g. at a user's wrist), the antenna utilizes the loading of the user's body tissue in order to suppress unwanted signals (e.g. left hand polarized signals) to permit operation in circular polarized mode (e.g. right hand polarized mode), thereby allowing for increased sensitivity to received circularly polarized signals such as those emanated from global positioning satellites.

Abstract: In general, a mobile virtual private network (VPN) is described in which service provider networks cooperate to dynamically extend a virtual routing area of a home service provider network to the edge of a visited service provider network and thereby enable IP address continuity for a roaming wireless device. In one example, a home service provider network allocates an IP address to a wireless device and establishes a mobile VPN. The home service provider network dynamically provisions a visited service provider network with the mobile VPN, when the wireless device attaches to an access network served by the visited service provider network, to enable the wireless device to exchange network traffic with the visited service provider network using the IP address allocated by the home service provider network.

Abstract: An antenna structure that provides spatial multiplexing capabilities. In one embodiment, the antenna comprises two antenna components with a substrate and radiator, the components being located on opposite sides of the circuit board of a radio device. Each antenna component operates in combination with the ground plane of the radio device to form a partial antenna, the operating band of which is below the frequency of 1 GHz. The ground plane and the feed points of the partial antennas are arranged so that the ‘dipole axes’ of the partial antennas have clearly different directions at the frequencies of said operating band.

Abstract: A device creates a pool of available licenses for secure network resources, and receives an unused license from a network device. The device also provides the unused license in the pool of available licenses, and receives a request for a license from another network device. The device further provides, to the other network device, the unused license from the pool of available licenses.

Abstract: Improved approaches for providing secure remote access to resources maintained on private networks are disclosed. According to one aspect, predetermined elements, such as applets, can be modified to redirect all communications to and from an application server through an intermediate server. The intermediate server in turn communicates with the application servers. According to another aspect, a communication framework can be provided to funnel communication between an applet and a server through a communication layer so as to provide managed and/or secured communications there between.

Abstract: Fluorescence chromophores such as phenylene diamine derivatives can undergo oxidative coupling and polymerization to form optical, colorimetric and fluorogenic, multimers and polymers. The presence of carbonyl containing moieties such as aldehydes and ketones under favorable environmental conditions can initiate, catalyze, accelerate and modulate this reaction which in turn provides a mechanism for the detection and quantitation of such moieties. Selected phenylene diamine derivatives can be used for the detection and quantitation of aldehyde and ketones via measurement of the reaction and the associated spectroscopic transformation. In particular, the use of meta-phenylene diamine (mPDA) and related compounds for aldehyde detection and quantitation is described. The method provides a convenient means for monitoring aldehyde and ketone levels without use of separation steps. The method is applicable to kinetic and quasi-endpoint detection assay formats.

Abstract: A distributed multiband antenna intended for radio devices, and methods for designing manufacturing the same. In one embodiment, a planar inverted-F antenna (PIFA) configured to operate in a high-frequency band, and a matched monopole configured to operate in a low-frequency band, are used within a handheld mobile device (e.g., cellular telephone). The two antennas are placed on substantially opposing regions of the portable device. The use of a separate low-frequency antenna element facilitates frequency-specific antenna matching, and therefore improves the overall performance of the multiband antenna. The use of high-band PIFA reduces antenna volume, and enables a smaller device housing structure while also reducing signal losses in the high frequency band. These attributes also advantageously facilitate compliance with specific absorption rate (SAR) tests; e.g., in the immediate proximity of hand and head “phantoms” as mandated under CTIA regulations.

Abstract: A device may include an authentication server and a server. The authentication server may receive a first form of a password from a client device in accordance with an authentication protocol, and authenticate the client device based on a comparison of the first form to a value derived from a second form of the password stored in a password database, where the comparison fails when the first form is not comparable to a value derived from the second form. The server may establish a secure connection to the client, receive a plain-text password from the client device over the secure connection, authenticate the client device by comparing a value derived from the plain-text password with a value derived from the second form, and update the password database with a third form of the password that permits the authentication server to successfully authenticate the client device when the authentication server receives the first form.

Abstract: An exemplary header insert assembly, and methods of manufacture and use thereof. In one embodiment, the header insert assembly comprises a connector insert assembly having an insert body assembly consisting of an insert body element. The insert body element includes an electronic component receiving cavity that is configured to receive any number of electronic components. The insert body assembly also includes a wire termination feature that includes termination slots that position the wire ends of the wire wound electronic components adjacent to a substrate to which the wire ends are ultimately to be secured. The wire ends are then secured to the substrate using, for example, a mass termination technique. The aforementioned header insert assembly can then be optionally inserted into a single or multi-port connector assembly. Methods of manufacturing the aforementioned single or multi-port connector assemblies are also disclosed.

Abstract: In general, techniques are described for provisioning layer two access in computer networks. A network device located in a public network comprising an interface and a control unit may implement the techniques. The interface establishes a session with a mobile device. The control unit requests security state data identifying a security state of the mobile device via the established session. The interface receives a mobile device identifier and the security state data from the mobile device via the session. The mobile device identifier identifies the mobile device. The control unit publishes the security state information to a database such that the security state information is associated with the mobile device identifier.

Abstract: A low cost, reduced form factor, high performance electronic device for use in electronic circuits and methods. In one exemplary embodiment, the device includes a unitary header assembly construction that ensures device coplanarity and also includes vertically oriented terminal pins. The device utilizes preconfigured flat coil windings that are disposed directly within a planar core. The flat coil windings further include features that are configured to mate with the header assembly terminal pins which substantially simplify the manufacturing process. Methods for manufacturing the device are also disclosed.

Abstract: An integrated, multi-service virtual private network (VPN) network client for cellular mobile devices is described. The multi-service network client can be deployed as a single software package on cellular mobile network devices to provide integrated services including secure enterprise VPN connectivity, acceleration, security management including monitored and enforced endpoint compliance, and collaboration services. The multi-service client integrates with an operating system of the device to provide a VPN handler to establish a VPN connection with a remote VPN security device. The VPN network client includes to data acceleration module exchange network packets with the VPN handler and apply at least one acceleration service to the network packets, and a VPN control application that provides a unified user interface that allows a user to configure both the VPN handler and the data acceleration module.

Abstract: Switchable multi-radiator high band antenna apparatus, and methods of tuning and utilizing the same. In one embodiment, the antenna apparatus is configured to operate in lower and upper frequency bands, for use within a handheld mobile device (e.g., cellular telephone or smartphone). In one variant, the antenna apparatus includes a metal cup, two feeding elements, and a ground element. One feeding element is used to tune the antenna in both the lower and the upper bands. The other feed element is used to tune the antenna in the upper band. A switching element is configured to change the signal routing for the feed elements. During device operation, a user's body (e.g., hand) may cover or obstruct one of the antenna elements. Responsive to a determination of reduced performance associated with covered/obstructed antenna element, the signal route may be automatically switched to the other element, thereby improving robustness of mobile device communications.

Abstract: Some embodiments provide a system for external manipulation of magnetic nanoparticles in vasculature using a remotely placed magnetic field-generating stator. In one aspect, the systems and methods relate to the control of magnetic nanoparticles in a fluid medium using permanent magnet-based or electromagnetic field-generating stator sources. Such a system can be useful for increasing the diffusion of therapeutic agents in a fluid medium, such as a human circulatory system, which can result in substantial clearance of fluid obstructions, such as vascular occlusions, in a circulatory system resulting in increased blood flow.

Abstract: A system for the physical manipulation of free magnetic rotors in a circulatory system using a remotely placed magnetic field-generating stator is provided. In one embodiment, the invention relates to the control of magnetic particles in a fluid medium using permanent magnet-based or electromagnetic field-generating stator sources. Such a system can be useful for increasing the diffusion of therapeutic agents in a fluid medium, such as a human circulatory system, which can result in substantial clearance of fluid obstructions, such as vascular occlusions, in a circulatory system resulting in increased blood flow. Examples of vascular occlusions targeted by the system include, but are not limited to, atherosclerotic plaques, including fibrous caps, fatty buildup, coronary occlusions, arterial stenosis, restenosis, vein thrombi, arterial thrombi, cerebral thrombi, embolisms, hemorrhages, other blood clots, and very small vessels.

Abstract: A conductive element such as an antenna, for use in electronic devices, including mobile devices such as cellular phones, smartphones, personal digital assistants (PDAs), laptops, and wireless tablets. In one exemplary aspect, the present disclosure relates to a conductive antenna formed using deposition of conductive fluids as well as the method and equipment for forming the same. In one embodiment, a “thick” antenna element can be formed in one pass of a dispensing head or nozzle, thereby reducing manufacturing cost and increasing manufacturing efficiency.

Abstract: Various technologies and techniques are disclosed for providing an autoresponder that allows subscribers to opt-in to one or more autoresponder campaigns using their spoken voice. Voice input is received from a subscriber and converted to text. The subscriber is added to at least one campaign. A contact communication identifier is stored in a subscriber contact record from the text that was converted from the voice input. One or more messages are sent to the subscriber using the contact communication identifier, and according to a schedule specified in the campaign. A virtual seminar playback system is described that simulates a live virtual seminar and allows subscribers to access a playback of a media recording over a communication connection at a specified time. An autoresponder system is described that delivers messages to subscribers in multiple available formats, based upon selections received by the subscribers.

Abstract: An internal dual band antenna meant for small radio devices. In one embodiment, the antenna contains two radiators and a parasite element, which is shared between them. The parasite element is implemented on three sides of the antenna module, which are perpendicular to the side where the two radiators are implemented. The short-circuit conductor of the parasite element extends close to the supply point/points of the antenna on the circuit board of the radio device and is connected to the ground plane of the radio device. The antenna structure is dimensioned such that the two resonance frequencies on both functional bands are at a lower frequency than the resonance frequencies of the actual radiators. Accordingly, both the lower and upper frequency band is widened. The shape of the parasite element does not weaken the adaptation of the antenna in either functional band.

Abstract: In one example, a mobile device includes a network interface configured to receive data for an application including a set of application permissions describing elements of the mobile device to which the application will have access upon installation of the application, and a processing unit configured to determine a type for the application and, based on an analysis of the set of application permissions and the type for the application, determine whether the application includes malware.

Abstract: High electrical isolation connector apparatus and methods. In one embodiment, an integrated connector module (ICM) is disclosed. The ICM includes a number of adjacent electronic subassemblies that are shielded through the use of an insert body shield. The insert body shield beneficially increases electrical isolation between adjacent subassemblies thereby further mitigating possible electrical noise. The insert body shield is configured to be received within a slot formed within the connector housing. An internal shield is also included that is received in a slot of an insert body of the electronic sub-assemblies, thereby effectively shielding adjacent component receiving cavities from one another. Methods and apparatus are also disclosed which make use and take advantage of these shielded ICMs. For example, telecommunications/networking equipment that incorporates these ICMs are also disclosed.