Abstract: A user provides a request for a ride sharing service that includes an origin location and a destination location. It is determined whether the origin location is associated with a condition that may lead to a high cost or a high wait for the ride. These conditions may include traffic or events that are near the origin location, or conditions such as surge pricing. In response to determining the condition, alternative locations are selected. These alternative locations may be locations that are generally on the way to the destination location, but that are not associated with the condition. A walking speed of the user is used with fare and time information from the ride sharing service about the locations to select a location that optimizes cost or waiting time for the user. The location may be recommended to the user, and a vehicle may be dispatched to the location.

Abstract: Map context for a target location is generated based on a familiarity of a user with an area surrounding the target location. A context map can be displayed at any of a number of zoom levels in order to provide context tailored to the user. Accordingly, if a user is unfamiliar with the area surrounding the target location the context map can be displayed at a zoom level that displays where in the world the target location is, such as displaying a map of a state, country, or group of countries. If the user is instead familiar with the target location, the context map can display the city, neighborhood, or street where the target location is located. Alternately, a radius around the target location can be used as the zoom level based on the familiarity of the user.

Abstract: A navigation device is provided that includes one or more input devices configured to receive starting and ending locations for route navigation, and a processor configured to retrieve user route preferences. The user route preferences may indicate one or more preferred route characteristics. The processor further may be configured to receive a request for a route from a starting location to an ending location via the one or more input devices, to read stored map information including a plurality of route segments. Each route segment may include route segment data indicating one or more route characteristics of that route segment. The processor may further be configured to generate a personalized route that includes at least one route segment having route segment data indicating at least one of the one or more preferred route characteristics of the user, and to display the personalized route to the user.

Abstract: Natural language directions are received and a set of maneuver/context pairs are generated based upon the natural language directions. The set of maneuver/context pairs are provided to a routing engine to obtain route information based upon the set of maneuver/context pairs. The route information is provided to an output system for surfacing to a user.

Abstract: A navigation device may include one or more input devices, a processor, and one or more output devices. A navigation device may read stored map information and stored route deviation information including one or more deviation segments having a divergence location, a deviation path, a reconvergence location, and deviation segment data. The processor of the navigation device may then generate a route and route data. Upon determining that each of the one or more deviation segments intersects the route and a predetermined subset of the deviation segment data matches a corresponding subset of the route data, the navigation device may generate a personalized route by replacing a route portion between a first intersection point and a last intersection point with a corresponding deviation portion for each intersecting deviation segment. The one or more output devices may then output the route and the one or more personalized routes.

Abstract: It has been discovered that poor TDDB reliability of microelectronic device capacitors with organic polymer material in the capacitor dielectric is due to water molecules infiltrating the organic polymer material when the microelectronic device is exposed to water vapor in the operating ambient. Water molecule infiltration from water vapor in the ambient is effectively reduced by a moisture barrier comprising a layer of aluminum oxide formed by an atomic layer deposition (ALD) process. A microelectronic device includes a capacitor with organic polymer material in the capacitor dielectric and a moisture barrier with a layer of aluminum oxide formed by an ALD process.

Abstract: A computing device and method for use in enabling contextual ink annotation in a mapping interface are disclosed. In one aspect, the computing method may include receiving a map view request to render a map view of map data based upon a current map rendering context, determining that a previously created virtual ink annotation is associated with a location within the map view, the virtual ink annotation having a previous map rendering context captured at a time of creation of the virtual ink annotation, and comparing the current map rendering context to the previous map rendering context associated with the virtual ink annotation. The method may further include, based on a result of the comparison, controlling display of the virtual ink annotation in a rendered map view.

Abstract: A computing device includes a display, a logic machine, and a storage machine holding instructions executable to display a map via the display, and associate a note with location data defining a geographic location. The note is associated with an annotation displayable on the map. The annotation is associated with a location parameter defining a map location at which the annotation is displayed on the map corresponding to the geographic location associated with the note. The annotation is associated with a zoom parameter defining one or more neap zoom levels at which the annotation is displayed on the map. The annotation is associated with a context parameter defining one or more computing device contexts with which the annotation is displayed on the map. A notification corresponding to the note is presented based on the computing device being located within a threshold distance of the geographic location.

Abstract: A graphical user interface for a computer includes a dial control. The control can be implemented, for example, as a touch-based, pointer-based, pen-based and/or keyboard-based mechanism. The dial control is intended for manipulating a large range of values, such as a menu of items from which a user makes a selection, or a range of continuous or discrete values. A dial control can replace other control types such as a slider, drop down menu or text field. The graphical elements of the dial control include one or more displayed rings and a handle for each ring. Inside the ring, or in another area adjacent the ring, a value can be displayed. The ring can be manipulated by the user to change the value selected by the dial control. In the case of multiple rings, each ring can be manipulated independently.

Abstract: A gap services router (GSR) that is a drop-in replacement of an end of life Cisco™ 2811 integrated services router (ISR). The GSR is a routing, switching, and computing platform that provides a technology refresh in the same form factor as the legacy 2811 router. The GSR is one rack unit in size and comprises the latest routing and switching technology from Cisco™, preferably a Cisco™ 5915 embedded services router (ESR) and a Cisco™ embedded services 2020 switch. The GSR contains two WAN ports and twenty-five LAN ports, with power over ethernet capability on all ports. The GSR also optionally includes an embedded server module capable of running the latest virtualization technology. An embedded server module in the GSR includes a removable solid state drive (SSD) that is zeroed upon removal. The GSR is preferably used to replace 2811 ISRs integrated in deployed military equipment.

Abstract: Sensitive, Type 1 KIV-encrypted data is encapsulated into IP packets in a remotely deployed, secure communication system. The IP packets are addressed to a matching IP encapsulator/decapsulator device over the public Internet or other IP protocol network, that then passes it to a similar Type 1 KIV device for decryption. Thus, sensitive, encrypted data is made to appear as if it were any other commercial network data, cloaking it in the vast and busy world of the Internet. The present invention is embodied in a system that provides secure Voice-Over-IP (VOIP), video and data network functionality in a single, small size deployable case, to a remote user. Most importantly, the embodiment allows for the routing of bulk encrypted (i.e., secure) data over a public network, e.g., the Internet.

Abstract: It has been discovered that poor TDDB reliability of microelectronic device capacitors with organic polymer material in the capacitor dielectric is due to water molecules infiltrating the organic polymer material when the microelectronic device is exposed to water vapor in the operating ambient. Water molecule infiltration from water vapor in the ambient is effectively reduced by a moisture barrier comprising a layer of aluminum oxide formed by an atomic layer deposition (ALD) process. A microelectronic device includes a capacitor with organic polymer material in the capacitor dielectric and a moisture barrier with a layer of aluminum oxide formed by an ALD process.

Abstract: A gap services router (GSR) that is a drop-in replacement of an end of life Cisco™ 2811 integrated services router (ISR). The GSR is a routing, switching, and computing platform that provides a technology refresh in the same form factor as the legacy 2811 router. The GSR is one rack unit in size and comprises the latest routing and switching technology from Cisco™, preferably a Cisco™ 5915 embedded services router (ESR) and a Cisco™ embedded services 2020 switch. The GSR contains two WAN ports and twenty-five LAN ports, with power over ethernet capability on all ports. The GSR also optionally includes an embedded server module capable of running the latest virtualization technology. An embedded server module in the GSR includes a removable solid state drive (SSD) that is zeroed upon removal. The GSR is preferably used to replace 2811 ISRs integrated in deployed military equipment.

Abstract: Sensitive, Type 1 KIV-encrypted data is encapsulated into IP packets in a remotely deployed, secure communication system. The IP packets are addressed to a matching IP encapsulator/decapsulator device over the public Internet or other IP protocol network, that then passes it to a similar Type 1 KIV device for decryption. Thus, sensitive, encrypted data is made to appear as if it were any other commercial network data, cloaking it in the vast and busy world of the Internet. The present invention is embodied in a system that provides secure Voice-Over-IP (VOIP), video and data network functionality in a single, small size deployable case, to a remote user. Most importantly, the embodiment allows for the routing of bulk encrypted (i.e., secure) data over a public network, e.g., the Internet.

Abstract: A graphical user interface for a computer includes a dial control. The control can be implemented, for example, as a touch-based, pointer-based, pen-based and/or keyboard-based mechanism. The dial control is intended for manipulating a large range of values, such as a menu of items from which a user makes a selection, or a range of continuous or discrete values. A dial control can replace other control types such as a slider, drop down menu or text field. The graphical elements of the dial control include one or more displayed rings and a handle for each ring. Inside the ring, or in another area adjacent the ring, a value can be displayed. The ring can be manipulated by the user to change the value selected by the dial control. In the case of multiple rings, each ring can be manipulated independently.

Abstract: Sensitive, Type 1 KIV-encrypted data is encapsulated into IP packets in a remotely deployed, secure communication system. The IP packets are addressed to a matching IP encapsulator/decapsulator device over the public Internet or other IP protocol network, that then passes it to a similar Type 1 KIV device for decryption. Thus, sensitive, encrypted data is made to appear as if it were any other commercial network data, cloaking it in the vast and busy world of the Internet. The present invention is embodied in a system that provides secure Voice-Over-IP (VoIP), video and data network functionality in a single, small size deployable case, to a remote user. Most importantly, the embodiment allows for the routing of bulk encrypted (i.e., secure) data over a public network, e.g., the Internet.

Abstract: This document discusses, among other things, a system capable of resolving interactions between programmable parameters for operation of a medical device. Programming these devices is a difficult task when many parameters are involved. The disclosed systems and methods attempt to reduce and minimize constraint violations between interdependent parameters using an initial set of parameter values supplied by user (typically a physician) input or calculated automatically, and constraint violations describing invalid parameter values. If possible, a set of parameter values with less egregious constraint violations is generated and may be displayed to the user. A user is prompted to accept the set of parameter values and program the medical device.

Abstract: A synchronization system includes a first account assigned a first unique identifier. Access to the first account is contingent on validation of a shared access credential. The synchronization system also includes a second account assigned a second unique identifier. Access to the second account is contingent on validation of the shared access credential. The synchronization system further includes a library of account operations. One or more account operations are configured to utilize the first unique identifier when addressing the first account, and one or more account operations are configured to utilize the second unique identifier when addressing the second account.