Institution
General Dynamics
Company•Fairfax, Virginia, United States•
About: General Dynamics is a company organization based out in Fairfax, Virginia, United States. It is known for research contribution in the topics: Signal & Propellant. The organization has 5722 authors who have published 5819 publications receiving 85768 citations. The organization is also known as: GD & General Dynamics Corporation.
Topics: Signal, Propellant, Antenna (radio), Communications system, Population
Papers published on a yearly basis
Papers
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31 Aug 1981TL;DR: In this paper, an articulated nose is locked in axial alignment with the longitudinal axis of a rolling projectile body, and a pyrotechnic means within the nose is actuated to unlock the nose and tilt it toward the target when the error between the projectile path and the path to the target exceeds a predetermined threshold.
Abstract: An articulated nose is locked in axial alignment with the longitudinal axis of a rolling projectile body Pyrotechnic means within the nose is actuated to unlock the nose and tilt it toward the target when the error between the projectile path and the path to the target exceeds a predetermined threshold
23 citations
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23 citations
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23 Jun 1986TL;DR: In this article, a connecting device is disclosed for electrically and mechanically linking multiple circuit boards arranged in two perpendicular stacks, including two identical connectors, each with a plurality of outwardly extended electrical socket contacts, and a pair of opposite, electrically insulative shoulders projected outwardly beyond the socket contacts.
Abstract: A connecting device is disclosed for electrically and mechanically linking multiple circuit boards arranged in two perpendicular stacks. The connecting device includes two identical connectors, each with a plurality of outwardly extended electrical socket contacts, and a pair of opposite, electrically insulative shoulders projected outwardly beyond the socket contacts. Electrical pin contacts are recessed into the shoulders. The pair of connectors can be engaged when in facing relation, with one of them rotated 90° relative to the other. As the connectors are moved toward engagement, each shoulder of each connector enters into a nesting relation between the opposed shoulders of the other connector, pre-aligning the opposed pin and socket contacts. The shoulders have inclined edges at their outer faces, to assist in capturing their associated opposed shoulders and guide them, in a self-aligning manner, into the nesting relation. The connectors require a 90° angular offset for their engagement, and thus facilitate interconnection of circuit boards in orthogonal stacks.
23 citations
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03 Nov 1980TL;DR: In this article, a four-arm spiral antenna with an angular measurement frame normal to the antenna axis was used to locate a source of RF radiation received by the antenna, where a detection circuit for detecting signals received from each of the spiral arms in response to the received RF radiation was proposed.
Abstract: A receiver for locating a source of RF radiation received by a four-arm spiral antenna having an angular measurement frame normal to the antenna axis, including a detection circuit for detecting signals received from each of the spiral arms in response to receipt of RF radiation by the antenna; a first comparison circuit for comparing signals detected from a first opposite pair of the spiral arms to produce a first signal that is proportional to a first function of the frequency of the received RF radiation and the angular displacement of the radiation source in the measurement frame; a second comparison circuit for comparing signals detected from the remaining opposite pair of the spiral arms to produce a second signal that is proportional to a second function of the frequency of the received RF radiation and the angular displacement of the radiation source in the measurement frame; and a processing circuit for processing the first and second signals to produce third and fourth signals that are proportional to the angular displacement and independent of the frequency of the received RF radiation.
23 citations
Authors
Showing all 5726 results
Name | H-index | Papers | Citations |
---|---|---|---|
David Pines | 77 | 336 | 27708 |
Kenneth G. Miller | 73 | 295 | 20042 |
Timothy J. White | 72 | 466 | 20574 |
David Erickson | 57 | 310 | 12288 |
Maxim Likhachev | 48 | 210 | 11162 |
Karlene H. Roberts | 46 | 109 | 13937 |
Francesco Soldovieri | 42 | 441 | 6664 |
Peter A. Rogerson | 39 | 141 | 6127 |
Daniel W. Bliss | 38 | 212 | 9054 |
R. Byron Pipes | 35 | 169 | 5942 |
Yosio Nakamura | 34 | 121 | 3947 |
Leonard George Cohen | 34 | 131 | 3953 |
Christopher C. Davis | 33 | 311 | 4013 |
Erhard W. Rothe | 31 | 108 | 3309 |
Charles Dubois | 29 | 129 | 2752 |