Abstract: A system, method, and apparatus comprising a robotic payload platform, an operator control module, a finger joystick controller, and a camera display. A single operator controls the robotic platform system to provide immediate-vicinity reconnaissance and payload delivery during ground assault operations. The robotic platform system is able to be secured to a tactical vest and engaged with minimal setup, deliver commonly available payloads with maximum flexibility, and traverse different terrains.

Abstract: Devices, methods and graphical user interfaces for manipulating user interfaces based on fingerprint sensor inputs are provided. An electronic device with a display and a fingerprint sensor may obtain fingerprint-verification criteria for controlling verification of fingerprints. For each of a plurality of respective inputs that correspond to respective restricted operations, the device may identify fingerprint features of the respective input. The device may determine fingerprint-verification information for the respective input. In response to detecting the respective input and in accordance with a determination that the fingerprint-verification information meets respective authorization criteria for the respective restricted operation, the device may perform the respective restricted operation.

Abstract: Devices, methods and graphical user interfaces for manipulating user interfaces based on fingerprint sensor inputs are provided. While a display of an electronic device with a fingerprint sensor displays a first user interface, the device may detect movement of a fingerprint on the fingerprint sensor. In accordance with a determination that the movement of the fingerprint is in a first direction, the device allows navigating through the first user interface, and in accordance with a determination that the movement of the fingerprint is in a second direction different from the first direction, the device allows displaying a second user interface different from the first user interface on the display.

Abstract: A robotic platform associated with one or more software services enables remote users to interact with an environment and other humans physically and visually through a robotic surrogate over any distance utilizing the internet. The robotic surrogate is controlled through a non-technical user interface which responds to user control inputs made through natural user arm movements which are tracked in three dimensional space.

Abstract: A robotic platform associated with one or more software services enables remote users to interact with an environment and other humans physically and visually through a robotic surrogate over any distance utilizing the internet. The robotic surrogate is controlled through a non-technical user interface which responds to user control inputs made through natural user arm movements which are tracked in three dimensional space.

Abstract: Devices, methods and graphical user interfaces for manipulating user interfaces based on fingerprint sensor inputs are provided. While a display of an electronic device with a fingerprint sensor displays a first user interface, the device may detect movement of a fingerprint on the fingerprint sensor. In accordance with a determination that the movement of the fingerprint is in a first direction, the device allows navigating through the first user interface, and in accordance with a determination that the movement of the fingerprint is in a second direction different from the first direction, the device allows displaying a second user interface different from the first user interface on the display.

Abstract: Devices, methods and graphical user interfaces for manipulating user interfaces based on fingerprint sensor inputs are provided. While a display of an electronic device with a fingerprint sensor displays a first user interface, the device may detect movement of a fingerprint on the fingerprint sensor. In accordance with a determination that the movement of the fingerprint is in a first direction, the device allows navigating through the first user interface, and in accordance with a determination that the movement of the fingerprint is in a second direction different from the first direction, the device allows displaying a second user interface different from the first user interface on the display.

Abstract: The present disclosure provides fully integrated microfluidic systems to perform nucleic acid analysis. These processes include sample collection, nucleic acid extraction and purification, amplification, sequencing, and separation and detection. The present disclosure also provides optical detection systems and methods for separation and detection of biological molecules. In particular, the various aspects of the invention enable the simultaneous separation and detection of a plurality of biological molecules, typically fluorescent dye-labeled nucleic acids, within one or a plurality of microfluidic chambers or channels. The nucleic acids can be labeled with at least 6 dyes, each having a unique peak emission wavelength. The present systems and methods are particularly useful for DNA fragment sizing applications such as human identification by genetic fingerprinting and DNA sequencing applications such as clinical diagnostics.

Abstract: A robotic platform associated with one or more software services enables remote users to interact with an environment and other humans physically and visually through a robotic surrogate over any distance utilizing the internet. The robotic surrogate is controlled through a non-technical user interface which responds to user control inputs made through natural user arm movements which are tracked in three dimensional space.

Abstract: A fast, multiplexed PCR system is described that can rapidly generate amplified nucleic acid products, for example, a full STR profile, from a target nucleic acid. Such systems include, for example, microfluidic biochips and a custom built thermal cycler, which are also described. The resulting STR profiles can satisfy forensic guidelines for signal strength, inter-loci peak height balance, heterozygous peak height ratio, incomplete non-template nucleotide addition, and stutter.

Abstract: This application provides techniques, including circuits and designs, which can receive information with respect to fingerprint images, or portions thereof, and which can be incorporated into devices using fingerprint recognition. This application also provides techniques, including devices which perform fingerprint recognition and methods which can be performed by those devices. In one embodiment, techniques can include providing a fingerprint recognition sensor in which one or more portions of each fingerprint can be collected as they are identified, and those portions can be combined into a unified fingerprint template. In this way, collection and enrollment of fingerprints may be simplified for users.

Abstract: A device has a touch processing module that processes touch screen input to determine if the manner in which the input was entered indicates that the user intends for execution of a particular command. In one embodiment, the module may acquire fingerprint data from the user's input and analyze the data to determine if the input was entered with a particular finger or finger sequence. In another embodiment, the module may also acquire timing data from the user's entry of a plurality of inputs and analyze the timing data to determine if the touch screen input was entered with a particular timing or cadence. In still another embodiment, the module may also acquire force data from the user's entry of a plurality of touch screen inputs and analyze the force data to determine if the touch screen input was entered with a particular force.

Abstract: A computing device may receive authentication information. Within a time-out period, a fingerprint may also be received. The computing device may assign one or more authentication credentials to the fingerprint based on authentication credentials associated with the received authentication information. In some implementations, the computing device may assign the authentication credentials associated with the received authentication information to the biometric. However, in other implementations, the computing device may assign different authentication credentials to the biometric based on one or more user preferences, defaults, security policies, and/or enterprise policies. In various implementations, the authentication credentials assigned to the biometric may be altered, such as by adding and/or removing one or more authentication credentials. Such alteration may be performed in response to a received user request, changed enterprise policy, changed security policy, fraud alert, and/or other such factor.

Abstract: The present disclosure provides fully integrated microfluidic systems to perform nucleic acid analysis. These processes include sample collection, nucleic acid extraction and purification, amplification, sequencing, and separation and detection. The present disclosure also provides optical detection systems and methods for separation and detection of biological molecules. In particular, the various aspects of the invention enable the simultaneous separation and detection of a plurality of biological molecules, typically fluorescent dye-labeled nucleic acids, within one or a plurality of microfluidic chambers or channels. The nucleic acids can be labeled with at least 6 dyes, each having a unique peak emission wavelength. The present systems and methods are particularly useful for DNA fragment sizing applications such as human identification by genetic fingerprinting and DNA sequencing applications such as clinical diagnostics.

Abstract: A computing device may receive authentication information. Within a time-out period, a fingerprint may also be received. The computing device may assign one or more authentication credentials to the fingerprint based on authentication credentials associated with the received authentication information. In some implementations, the computing device may assign the authentication credentials associated with the received authentication information to the biometric. However, in other implementations, the computing device may assign different authentication credentials to the biometric based on one or more user preferences, defaults, security policies, and/or enterprise policies. In various implementations, the authentication credentials assigned to the biometric may be altered, such as by adding and/or removing one or more authentication credentials. Such alteration may be performed in response to a received user request, changed enterprise policy, changed security policy, fraud alert, and/or other such factor.

Abstract: The present disclosure provides fully integrated microfluidic systems to perform nucleic acid analysis. These processes include sample collection, nucleic acid extraction and purification, amplification, sequencing, and separation and detection. The present disclosure also provides optical detection systems and methods for separation and detection of biological molecules. In particular, the various aspects of the invention enable the simultaneous separation and detection of a plurality of biological molecules, typically fluorescent dye-labeled nucleic acids, within one or a plurality of microfluidic chambers or channels. The nucleic acids can be labeled with at least 6 dyes, each having a unique peak emission wavelength. The present systems and methods are particularly useful for DNA fragment sizing applications such as human identification by genetic fingerprinting and DNA sequencing applications such as clinical diagnostics.

Abstract: A computing device may determine to capture biometric information in response to the occurrence of one or more trigger conditions. The trigger condition may be receipt of one or more instructions from one or more other computing devices, detection of potential unauthorized use by the computing device, normal operation of the computing device, and so on. The computing device may obtain biometric information and may store such biometric information. Such biometric information may be one or more fingerprints, one or more images of a current user of the computing device, video of the current user, audio of the environment of the computing device, forensic interface use information, and so on. The computing device may then provide the stored biometric information for identification of one or more unauthorized users.

Abstract: A computing device may receive authentication information. Within a time-out period, a fingerprint may also be received. The computing device may assign one or more authentication credentials to the fingerprint based on authentication credentials associated with the received authentication information. In some implementations, the computing device may assign the authentication credentials associated with the received authentication information to the biometric. However, in other implementations, the computing device may assign different authentication credentials to the biometric based on one or more user preferences, defaults, security policies, and/or enterprise policies. In various implementations, the authentication credentials assigned to the biometric may be altered, such as by adding and/or removing one or more authentication credentials. Such alteration may be performed in response to a received user request, changed enterprise policy, changed security policy, fraud alert, and/or other such factor.

Abstract: A computing device may determine to capture biometric information in response to the occurrence of one or more trigger conditions. The trigger condition may be receipt of one or more instructions from one or more other computing devices, detection of potential unauthorized use by the computing device, normal operation of the computing device, and so on. The computing device may obtain biometric information and may store such biometric information. Such biometric information may be one or more fingerprints, one or more images of a current user of the computing device, video of the current user, audio of the environment of the computing device, forensic interface use information, and so on. The computing device may then provide the stored biometric information for identification of one or more unauthorized users.

Abstract: A device has a touch processing module that processes touch screen input to determine if the manner in which the input was entered indicates that the user intends for execution of a particular command. In one embodiment, the module may acquire fingerprint data from the user's input and analyze the data to determine if the input was entered with a particular finger or finger sequence. In another embodiment, the module may also acquire timing data from the user's entry of a plurality of inputs and analyze the timing data to determine if the touch screen input was entered with a particular timing or cadence. In still another embodiment, the module may also acquire force data from the user's entry of a plurality of touch screen inputs and analyze the force data to determine to determine if the touch screen input was entered with a particular force.