John J. Mielnik scite author profile

John J. Mielnik

5Publications

10Citation Statements Received

17Citation Statements Given

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Affiliations

Lockheed Martin (United States), Universidade de São Paulo

Publications

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Small Aircraft RF Interference Path Loss

Nguyen

Koppen

Ely

et al. 2007

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Abstract-Interference to aircraft radio receivers is an increasing concern as more portable electronic devices are allowed onboard. Interference signals are attenuated as they propagate from inside the cabin to aircraft radio antennas mounted on the outside of the aircraft. The attenuation level is referred to as the interference path loss (IPL) value. Significant published IPL data exists for transport and regional category airplanes. This report fills a void by providing data for small business/corporate and general aviation aircraft.In this effort, IPL measurements are performed on ten small aircraft of different designs and manufacturers. Multiple radio systems are addressed. Along with the typical worst-case coupling values, statistical distributions are also reported that could lead to better interference risk assessment.

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Thermal diffusivity of dental cements*

Baffa

Mielnik

Panzeri

et al. 1986

Australian Dental Journal

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The NASA Langley Research Center's Unmanned Aerial System Surrogate research aircraft

Howell

Jessup

Jones

et al. 2010

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and John Mielnik, Lockheed Martin Corp., Hampton, VA AbstractResearch is needed to determine what procedures, aircraft sensors and other systems will be required to allow Unmanned Aerial Systems (UAS) to safely operate with manned aircraft in the National Airspace System (NAS). The NASA Langley Research Center has transformed a Cirrus Design SR22 general aviation (GA) aircraft into a UAS Surrogate research aircraft to serve as a platform for UAS systems research, development, flight testing and evaluation. The aircraft is manned with a Safety Pilot and systems operator that allows for flight operations almost anywhere in the NAS without the need for a Federal Aviation Administration (FAA) Certificate of Authorization (COA). The UAS Surrogate can be controlled from a modular, transportable ground station like a true UAS. The UAS Surrogate is able to file and fly in the NAS with normal traffic and is a better platform for real world UAS research and development than existing vehicles flying in restricted ranges or other sterilized airspace.The Cirrus Design SR22 aircraft is a small, singleengine, four-place, composite-construction aircraft that NASA Langley acquired to support NASA flight-research programs like the Small Aircraft Transportation System (SATS) Project. Systems were installed to support flight test research and data gathering. These systems include: separate research power; multi-function flat-panel displays; research computers; research air data and inertial state sensors; video recording; data acquisition; data-link; S-band video and data telemetry; Common Airborne Instrumentation System (CAIS); Automatic Dependent Surveillance-Broadcast (ADS-B); instrumented surfaces and controls; and a systems operator work station. The transformation of the SR22 to a UAS Surrogate was accomplished in phases. The first phase was to modify the existing autopilot to accept external commands from a research computer that was connected by redundant data-link radios to a ground control station. An electro-mechanical auto-throttle was added in the next phase to provide ground station control of airspeed. Additional phases are in progress to add waypoint navigation and long range satellite voice and data communications. Potential areas for UAS Surrogate research include the development, flight test and evaluation of sensors to aid in the process of air traffic "detect-sense-and-avoid". These sensors could be evaluated in real-time and compared with onboard human evaluation pilots. This paper describes the systems and design considerations that were incorporated in the development of the UAS Surrogate along with details of development problems encountered and the corresponding solutions.

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Airborne RF Measurement System and Analysis of Representative Flight RF Environment

Koppen

Ely

Smith

et al. 2007

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Abstract-Environmental radio frequency (RF) data over a broad band of frequencies were needed to evaluate the airspace around several airports. An RF signal measurement system was designed using a spectrum analyzer connected to an aircraft VHF/UHF navigation antenna installed on a small aircraft. This paper presents an overview of the RF measurement system and provides analysis of a sample of RF signal measurement data over a frequency range of 30 MHz to 1000 MHz.

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Radio frequency compatibility of an RFID tag on glideslope navigation receivers

Nguyen

Mielnik

2008

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John J. Mielnik

Small Aircraft RF Interference Path Loss

Thermal diffusivity of dental cements*

The NASA Langley Research Center's Unmanned Aerial System Surrogate research aircraft

Airborne RF Measurement System and Analysis of Representative Flight RF Environment

Radio frequency compatibility of an RFID tag on glideslope navigation receivers

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