Abstract: A method and system is disclosed which provides for a zero turn stand-on snow blower with only two powered wheels and two free wheeling casters which provides for the ability to blow snow from narrow paths, turn around without leaving the sidewalk, automatically turn off the auger and present a shovel for performing quick detailed shoveling tasks when stepping off the snow blower.

Abstract: A method, apparatus, and system for controlling a device. A device control system comprises a computer system and a controller in the computer system. The controller receives internal sensor data for a group of internal parameters generated by an internal sensor system that senses the group of internal parameters within the device that relate to an operation of the device and receive external sensor data for a group of external parameters generated by an external sensor system that senses the group of external parameters in an environment around the device that relate to the operation of the device. The controller sends the internal sensor data and the external sensor data for an analysis with aggregated internal sensor data and aggregated external sensor data for devices of a same class as the device to generate results. The controller controls the operation of the device based on the results of the analysis.

Abstract: A method, apparatus, and system for controlling a deep brain stimulation system. Internal sensor data is received for a group of internal parameters that relate to an operation of the deep brain stimulation system. The internal sensor data is generated by an internal sensor system. External sensor data is received for a group of external parameters for an environment around the device. The external sensor data is generated by an external sensor system. The internal sensor data and the external sensor data are analyzed with aggregated internal sensor data and aggregated external sensor data for deep brain stimulation systems of a same class as the deep brain stimulation system to generate results. An operation of the device is controlled based on the results.

Abstract: Methods and devices for monitoring transportation of one or more of travelers and cargo containers in pods that are being transported on a vehicle. The methods and devices may determine that the pods have been deployed from the vehicle. After deployment, the landing locations may be determined. Information may be ascertained about the health of the travelers within the pods and/or a condition of the cargo containers within the pods. Recovery personnel may be notified about this information to facilitate rescue.

Abstract: Devices and methods of a pod that deploys from an aircraft or vehicle and descends to safely land. The pod is configured to be attached to an aircraft or vehicle. The pod includes walls that extend around and form a contained interior space that houses one or more travelers or cargo containers. During flight of the aircraft or vehicle, the pod deploys from the aircraft or vehicle while at an elevation above ground. A landing location is determined for the pod. While the pod is descending, the pod is steered towards and lands at the landing location.

Abstract: Medical devices for accessing the central nervous system, as well as making and using medical devices, are disclosed. An example medical device may include an expandable access port. The expandable access port may include a housing having a plurality of tines coupled thereto. A thrust washer may be disposed along the housing. An actuation member may be coupled to the housing. The actuation member may be designed to shift the plurality of tines between a first configuration and an expanded configuration.

Abstract: A method, apparatus, and system for visualizing information. An augmented reality system comprises a computer system and a visualizer in the computer system. The computer system is in communication with unmanned vehicles using communications links. The visualizer system receives images of a physical object from the unmanned vehicles moving relative to the physical object and receive scan data for a region of the physical object from the unmanned vehicles. The visualizer creates an enhanced model of the physical object using the images and the scan data. The region of the physical object in the enhanced model has a greater amount of detail than the other regions of the physical object. The visualizer sends information to a portable computing device that is displayable by the portable computing device on a live view of the physical object. The information is identified using the enhanced model of the physical object.

Abstract: A method and system which provides for a zero turn stand-on snow blower with only two powered wheels and two free-wheeling casters and which provides for the ability to blow snow from narrow paths, turn around without leaving the sidewalk, automatically turn off the auger and present a shovel for performing quick detailed shoveling tasks when stepping off the snow blower.

Abstract: A system, method, and apparatus for a visualization system for deep brain stimulation. The visualization system comprises a camera system, a display system, and an information analyzer. The information analyzer is configured to display a group of electrodes for the deep brain stimulation on a head of a patient on the display system such that a visualization of the group of electrodes is displayed overlaid on the head of the patient in real time in a position corresponding to an actual position of the group of electrodes in a brain in the head of the patient. An operation of the group of electrodes sending an electrical signal into the head of the patient is displayed in the visualization, enabling visualizing a physical reaction of the patient to the deep brain stimulation in conjunction with the visualization of the operation of the group of electrodes.

Abstract: A supervisory control and data acquisition (SCADA) unit and technique for managing communications over a network of defined capacity. The unit and techniques include safeguarding the network while allowing for operations to proceed at an oilfield. The safeguards allow for multiple additional and different types of equipment to be added to or removed from the network while being managed by a single SCADA unit. This may be achieved through unique filtering protocols which prevent unidentified and/or unconfirmed equipment and devices from being added to the network merely due to be detected at the oilfield.

Abstract: A modular transportation system to transport one or more persons and/or objects. The system may include a pod with wall segments that mount together to form an interior space to house the one or more persons and/or objects. The wall segments are modular and configured to connect together in a variety of different configurations to selectively configure the interior space. Vehicles are each configured to individually connect to the pod and to transport the pod from a first location to a second location. At least one of the vehicles is configured to transport the pod by land and at least one of the vehicles is configured to transport the pod by air.

Abstract: A transportation system that includes one or more pods that each includes an interior space configured to house travelers and objects. The pods can be attached to and transported by multiple different vehicles. The different vehicles can provide for different modes of transportation depending upon the plans of the travelers. Different modes include but are not limited to ground travel, air travel, water travel, and rail travel.

Abstract: A system and method to transport one or more persons or objects. The system includes pods that each have an interior space to house the one or more persons or objects, and vehicles that are each configured to individually connect to one or more of the pods and to transport the pods from a first location to a second location. A server is located remotely from the pods and the vehicles. The server is configured to receive data from the pods and the vehicles through a wireless communication network to monitor a usage and location of the pods.

Abstract: A transportation system that includes one or more pods that include an interior space configured to house one or more travelers. The pods can be attached to and transported by multiple different vehicles. The different vehicles can provide for different modes of transportation. The pods are configured to supply one or more utility functions to the interior space. One or more of the utility functions to be supplied from the vehicles to the pods when the pods are attached to the vehicles.

Abstract: A method, apparatus, and system for managing nonconformances in laminates. A nonconformance management system comprises a sensor system and an analyzer in a computer system. The sensor that records layup information about the layup of layers on a workpiece platform and records inspection information about the laminate located on an inspection platform, wherein the laminate is formed from curing the workpiece. The analyzer in the computer system identifies a laminate nonconformance in the laminate using the inspection information, generates nonconformance information about the laminate nonconformance, and displays the nonconformance information about the laminate nonconformance on the laminate using a display system for an augmented reality display.

Abstract: A method, apparatus, and system for delivering an optical sensor. A capsule is placed into a tube system, wherein an optical fiber is stored within the capsule. The capsule is moved through the tube system. The optical fiber is unfurled as the capsule travels through a tube system. Optical signals are sent through the optical fiber from a proximal end of the optical fiber. Response optical signals occurring in response to the optical signals sent through the optical fiber are detected. Sensor data is transmitted based on the response optical signals detected by the optical system.

Abstract: A method, apparatus, and system for delivering an electrical current. Optical signals are sent through a group of optical fibers in a medium. Response optical signals occurring in response to the optical signals sent through the group of optical fibers are detected when the group of optical fibers is located in the medium. A group of parameters for the medium is determined using the response optical signals. A group of electrical currents is sent through a group of electrodes based on the group of parameters, wherein the group of electrodes emit the group of electrical currents.

Abstract: A method, apparatus, and system for monitoring a vehicle. Optical signals are sent into a fiber optic mesh covering a region of the vehicle. Response optical signals occurring in response to optical signals sent into the fiber optic mesh are detected. Sensor data is generated from the response optical signals detected. A determination is made as to whether a group of nonconformances is present in the vehicle using the sensor data. A group of actions is performed when the group of nonconformances is present.

Abstract: A method, apparatus, and system for managing events. A method receives mobile sensor information from mobile devices operated by human nodes in a location and determines whether the event has occurred at the location in which event management is needed for the event using the mobile sensor information. The method identifies resources needed for the event using the mobile sensor information in response to a determination that the event has occurred and allocates the resources identified to handle the event using the mobile sensor information.

Abstract: Methods and systems are provided for optimizing call quality and improving network efficiency by reducing bandwidth requirements at the individual-voice-call level. Embodiments provided herein build vocal fingerprints that correspond to the frequency range of the human voice, as well as the frequency range of the voice of individual users. The vocal fingerprints are used minimize and reduce the transmission of background noise and ambient sound captured using HD voice while retaining the frequency range of a user's voice in HD voice. This filtered HD voice frequency range is then transmitted to recipients over the network. The reduced frequency range lowers bandwidth usage and conserves network resources, all while optimizing the call quality for individual users.