Embodiments in the present description are provided for a lever adapter device for use in lifting a vehicle or other heavy objects. Additional embodiments in the present description are provided for a Bi-pod rescue strut system for use in stabilizing a vehicle or other object. The lever adapter device includes stabilizing feet and one or more support legs. The lever adapter device further includes a hinge disposed at an end of each support leg. Each support leg is extendable and retractable towards or away from the other support leg. The lever adapter device further includes a jack attachment piece and one or more hinges, which are also connected to the one or more support legs. The jack attachment piece is configured to be removably connected to a jack, such as a HI-LIFT jack, or to other lifting devices to assist in lifting the vehicle or the other heavy objects.

An augmentation amplifier is provided for aspirating gas flow from a surrounding medium. The amplifier connects at an inlet to a pressurized gas source and at an outlet to a gas receiver. Ambient gas from the medium supplements source provided compressed gas. The amplifier includes a Venturi conduit including a throat, an external cavity and a diffusion chamber. The conduit receives and flows pressurized gas from the inlet to the throat. The cavity receives ambient gas from the medium. The chamber expands and accelerates the pressurized gas from the throat to entrain the ambient gas via aspiration. The accelerated and ambient gases combine into an exhaust gas to the outlet.

A bimodal robot operable in a ground mode and a flight mode, the bimodal robot including: a frame; a ground unit including a plurality of wheels located on a lower portion of the frame and one or more arms mounted on the frame; a flight unit including a plurality of flight motors and propellers attached thereto, the flight unit located on an upper portion of the frame; a master controller in wireless communication with a remote, the master controller in communication with a ground unit slave controller for controlling the plurality of wheels during operation of the bimodal robot in a ground mode and one or more arms of the ground unit and a flight unit slave controller for controlling the plurality of flight motors during operation of the bimodal robot in a flight mode.

A bimodal robot operable in a ground mode and a flight mode, the bimodal robot including: a frame; a ground unit including a plurality of wheels located on a lower portion of the frame and one or more arms mounted on the frame; a flight unit including a plurality of flight motors and propellers attached thereto, the flight unit located on an upper portion of the frame; a master controller in wireless communication with a remote, the master controller in communication with a ground unit slave controller for controlling the plurality of wheels during operation of the bimodal robot in a ground mode and one or more arms of the ground unit and a flight unit slave controller for controlling the plurality of flight motors during operation of the bimodal robot in a flight mode.

Embodiments of the present invention provide a method, computer program product, and a computer system for automated deployment of autonomous devices performing localized environment altering actions. A processor detects a set of weather conditions for a region, wherein the set of weather conditions includes at least temperature. A processor predicts whether the temperature will influence bodily functions of at least one organism of a plurality of organisms in the region. A processor dispatches one or more autonomous devices in response to predicting that the temperature will influence the bodily functions of the at least one organism of the plurality of organisms in the region.

Embodiments of the present invention provide a method, computer program product, and a computer system for automated deployment of autonomous devices performing localized environment altering actions. A processor detects a set of weather conditions for a region, wherein the set of weather conditions includes at least temperature. A processor predicts whether the temperature will influence bodily functions of at least one organism of a plurality of organisms in the region. A processor dispatches one or more autonomous devices in response to predicting that the temperature will influence the bodily functions of the at least one organism of the plurality of organisms in the region.

A method and system for automatically detecting a location is provided. The method includes receiving by a vehicle, data describing a specified geographical area of a collapsed structure. A received control signal enables control of the vehicle such that the vehicle initiates motion and navigates in a specified direction towards the specified geographical area and upon arriving at the specified geographical area, a size and a magnitude of the collapsed structure is determined via sensors of the vehicle. A center location of the collapsed structure is determined and the vehicle hovers above the center location. Geographical coordinates of the location above the center location are transmitted to a search and rescue system and the center location is scanned via ground penetrating radar. Open spaces within the collapsed structure are determined and scanned to locate living entities within the open spaces.

A method and system for automatically detecting a location is provided. The method includes receiving by a vehicle, data describing a specified geographical area of a collapsed structure. A received control signal enables control of the vehicle such that the vehicle initiates motion and navigates in a specified direction towards the specified geographical area and upon arriving at the specified geographical area, a size and a magnitude of the collapsed structure is determined via sensors of the vehicle. A center location of the collapsed structure is determined and the vehicle hovers above the center location. Geographical coordinates of the location above the center location are transmitted to a search and rescue system and the center location is scanned via ground penetrating radar. Open spaces within the collapsed structure are determined and scanned to locate living entities within the open spaces.

An integrated passive wireless chip diagnostic sensor system is described that can be interrogated remotely with a wireless device such as a modified cell phone incorporating multi-protocol RFID reader capabilities (such as the emerging Gen-2 standard) or Bluetooth, providing universal easy to use, low cost and immediate quantitative analyzes, geolocation and sensor networking capabilities to users of the technology. The present invention can be integrated into various diagnostic platforms and is applicable for use with low power sensors such as thin films, MEMS, electrochemical, thermal, resistive, nano or microfluidic sensor technologies. Applications of the present invention include on-the-spot medical and self-diagnostics on smart skin patches, Point-of-Care (POC) analyzes, food diagnostics, pathogen detection, disease-specific wireless biomarker detection, remote structural stresses detection and sensor networks for industrial or Homeland Security using low cost wireless devices such as modified cell phones.

An integrated passive wireless chip diagnostic sensor system is described that can be interrogated remotely with a wireless device such as a modified cell phone incorporating multi-protocol RFID reader capabilities (such as the emerging Gen-2 standard) or Bluetooth, providing universal easy to use, low cost and immediate quantitative analyzes, geolocation and sensor networking capabilities to users of the technology. The present invention can be integrated into various diagnostic platforms and is applicable for use with low power sensors such as thin films, MEMS, electrochemical, thermal, resistive, nano or microfluidic sensor technologies. Applications of the present invention include on-the-spot medical and self-diagnostics on smart skin patches, Point-of-Care (POC) analyzes, food diagnostics, pathogen detection, disease-specific wireless biomarker detection, remote structural stresses detection and sensor networks for industrial or Homeland Security using low cost wireless devices such as modified cell phones.