Abstract: A battery tester device for measuring remaining battery life in a battery is provided. The battery tester device comprises a length of wire having a first end, a second end, and a middle portion. A light bulb holding mechanism is formed in the second end of the wire. A light bulb is releasably securable within the light bulb holding mechanism with the light bulb electrically connected to the light bulb holding mechanism. Upon insertion of the battery between the first end and the second end of the wire, the light bulb illuminates to indicate the remaining battery life.

Abstract: Methods and systems for managing aircraft maintenance and material supply by a business entity for at least one customer are provided. The method includes managing a plurality of maintenance activities for an aircraft by the business entity wherein the plurality of maintenance activities are performed by at least one maintenance entity separate from the business entity and the at least one customer. The method further includes managing a supply of aircraft parts to the maintenance entity from a plurality of parts suppliers by the business entity and outputting at least one maintenance activity to be performed by the maintenance entity.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP charges the customer a fee for the maintenance management service, based on several variables, including the number of flight hours the aircraft is in service over a period of time. The fee may be adjusted based on performance guarantees and incentives established between the MSP and the customer.

Abstract: Turnkey maintenance of a customer's aircraft fleet is managed by a single management service provider (MSP) controlling integrated maintenance and materials services from a central operations site. The MSP converts data received directly from on-board aircraft systems into information it uses to manage maintenance service providers and parts suppliers. The MSP contracts with and manages maintenance, repair and overhaul organizations (MROs) who perform the maintenance on the customers' aircraft at line and base stations. The MSP either remotely manages part inventories at the customer's site, or manages suppliers who deliver the parts to the MROs. Maintenance planning, scheduling and execution information is exchanged between the MSP, MROs, part suppliers and the customers through a shared data communication network controlled by the MSP. The MSP charges the customer for the maintenance services based on a flat rate per unit of aircraft flying time.

Abstract: An implantable refillable device to deliver pharmacologic agents through a sclera to an internal portion of an eye is shown. The device comprises a hollow reservoir and a delivery tube. The delivery tube has a proximal end and a distal end. The proximal end communicates with the hollow reservoir and the distal end terminates in a dispensing outlet. The delivery tube is configured in a selected shape to extend from the hollow reservoir anterior in an eye to a posterior segment posterior in an eye adjoining a sclera. The second end is configured to position the dispensing outlet in contact with or contiguous the sclera and is located posteriorly in an eye and proximate to an internal portion of an eye to be treated with a pharmacologic agent. An implantable device to deliver pharmacologic agents through an outer surface tissue of an organ is also shown.

Abstract: The present invention comprises systems and methods for preventing collisions between aircraft and ground vehicles. In one embodiment, a system includes a proximity detection unit and a transducer proximate to a selected structural portion of an aircraft, the proximity detection unit being operable to emit ranging signals through the transducer and to receive reflected signals through the transducer to determine the position of an object within a ranging area adjacent to the structural portion. The system further includes an alarm device coupled to the proximity detection unit that is responsive to a signal generated by the proximity detection unit. In another embodiment, a method includes determining a distance between the ground service vehicle and a selected structural portion of the aircraft when the vehicle is positioned in a ranging area about the aircraft. The method further includes generating a proximity alarm based upon the distance.

Abstract: A mobile platform comprising at least one mobile platform system that includes a processor, a structure, and an SHM system. The SHM system also includes a processor as well as a structural sensor. The SHM processor is separate from the mobile platform system processor. In other preferred embodiments, the mobile platform includes a flight control system, a maintenance information system, and an IVHM system. The SHM system may receive parameters from the flight control system and calculate loads therefrom. Alternatively, the sensor may be a structural load sensor, which the SHM processor uses along with the parameters, to calculate other structural loads. In still another preferred embodiment, a method is provided that includes separating SHM functions from a processor of a mobile platform system. The method also includes dedicating an SHM system to perform SHM functions and establishing communications between the SHM system and the mobile platform system.

Abstract: An applicator device capable of housing an insertable element and an insertion member having an insertion end and a gripper end. The applicator includes a plunger that has a diameter, an insertion end and a gripper end. The insertion end of the plunger consists of a locking mechanism having a diameter greater than the diameter of the plunger. The locking mechanism also includes a plurality of slits.

Abstract: A process for making an applicator device capable of housing an insertable element first providing an insertion member having an insertion end and a gripper end. Next, a plunger is provided having a diameter, an insertion end, and a gripper end. A plurality of slits are produced on the insertion end of the plunger. After the insertion end of the plunger is slit, it is deformed to form the locking mechanism. Next, the plunger is inserted the insertion member. In some embodiments, the locking mechanism is arranged for the plunger slideably introduced into the insertion member.