16 research outputs found
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1960
Recent Developments Affecting Golf Course Design (page 1) From the Editor (3) Five Year Results (3) Turf Management Club News (4) Quotes from 1960 Seniors (5) Poa annua - - Friend or Foe (6) The Horticulture Show (7) Cartoons (8) Message from the Winter School President of 1960 (10) The Most Outstanding Turf Senior for 1959 (10) The Value of the Proper Use of Lime (11) Summer Placement (12) A Greenhouse on the Golf Course (13) More Opportunities in the Future for the Aggressive Superintendent at Country Clubs (14) Soil, Sawdust and Turfgrass (15) Picture - Senior Stockbridge Turf majors (16) Picture - Freshman Stockbridge Turf majors (17) Susceptibility of Merion Bluegrass to Stripe Smut (18) Bents in the South (19) Picture - Honorary Members of Turf Management Club (20) Picture - Graduates of Winter School for Turf mangers- 1960 (21) Weather - We are Going to Have Weather, Whether or Not - What Should we Expect by O. Tennebaum & R. E. Lautzenheiser (A-1) The Nature of Winter Injury to Plants by Dr. Johnson Parker (A-1) Turf Problems: You Name it and We\u27ve Had It in \u2759 by Alexander Radko ad T.T. Taylor (A-3) Topdressing Experiences with Greens at Century by James Fulwider (A-5) Poa annua - Fairway Rennovation at winged Foot by Sherwood A. Moore (A-6) Winter Problems at Ekwanaok by Paul O\u27Leary (A-8) Progress Through Drainage by Kayem Ovian (A-10) Winter Injury on Home Lawns by Orlando Capizzi (A-12) The Status of Pre-emergence Chemicals for the Control of Crabgrass by Dr. E. Engel (A-12) Turf Nurseries - Establishment, Maintenance & Utilization by Robert Grant (A-14) Soil Compaction by Dr. R. B. Alderfer (A-16) Water Management Practices on Turf Areas by Dr. J.R. Watson (A-18) Getting to Know Your Members by Owen Griffith (A-23) New Trends in Clubhouse Landscaping by Alfred Boicourt (A-26) General Lawn Management (Alternate Session) Conserving Soil for a good Lawn by Dr. William G. Colby (A-27) Fertilizting and Liming by Dr. Joseph Steckel (A-28) Grasses and Grass Mixtures for New England Lawns by Dr. Robert Schery (A-29) The Care and Maintenance of Establishment Lawns by Dr. John R. Davi
A report on archaeological testing of the Twelfth Street right-of-way from Market Street to Chestnut Street including archaeological monitoring of street improvement from Chestnut Street to Carter Street
As part of a major redevelopment of a portion of downtown Chattanooga occasioned by the construction of a Tennessee Valley Authority office complex, the City of Chattanooga proposed to extend Twelfth Street from Chestnut Street to Market Street. This extension of Twelfth Street would run roughly east to west across the southern border of the TVA office complex site, crossing existing Chestnut, Broad and Market Streets, and connecting with Newby Street. Concommitant with new street construction would be the improvement of surfaces and buried services and utilities along or under existing streets. Such an improvement would affect Twelfth Street from Chestnut to Carter Streets. Under provisions of Section 106 of the National Historic Preservation Act of 1966, as amended, the City of Chattanooga and the Tennessee Valley Authority were to contract for the performance of archival research and limited archaeological testing and reconnaissance on their respective properties in order to assess the presence or absence of historic or prehistoric cultural remains which might be eligible for inclusion in the National Register of Historic Places and, if eligible, a plan to mitigate the adverse impact on the remains would be formulated and implemented. A Memorandum of Agreement was executed between the Tennessee State Historic Preservation Officer (SHPO), the Advisory Council on Historic Preservation, and the City of Chattanooga. The City of Chattanooga was provided a Scope of Services outlining the archaeological services to be performed by an appropriate contractor. The following is a report on archaeological testing performed by the Institute of Archaeology, University of Tennessee at Chattanooga, on behalf of the City of Chattanooga, through their agents, the firm of Hensley-Schmidt, Inc., engineering consultants. This report consolidates data gathered under three contracts funded through an Urban Development Action Grant (UDAG) No. B-80-AA-47-0003 (Contract No. 2). These three projects were identified as Archaeological Testing of the Twelfth Street Extension Right-of-Way, Market to Broad Streets, (May 28, 1980), Archaeological Monitoring of the Twelfth Street Extension Right-of-Way, Chestnut to Carter Streets, (June 6, 1980), and Archaeological Testing of the Twelfth Street Extension Right-of-Way, Chestnut to Broad Streets, (June 12, 1980). The field portion of the archaeological testing and monitoring program was conducted between 2 June and 11 July, 1980, and was directed by R. Bruce Council, Research Instructor, and Loretta Lautzenheiser, Assistant Archaeologist, both of the Institute of Archaeology. Dr. Jeffrey L. Brown served as Principal Investigator of the monitoring phase of the work, and R. Bruce Council was Principal Investigator on the testing portions of the program.https://scholar.utc.edu/archaeology-reports/1087/thumbnail.jp
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Mid-wave and long-wave infrared signature model and measurement of power lines against atmospheric path radiance
The signal to noise ratio and corresponding visibility of power cables as seen by military aircrafts is critical for crew safety. During low altitude operations, rotorcraft systems must be able to navigate these power lines during flight. Many of these military missions are flown at night which means the reflective bands including the visible, near infrared and short-wave infrared do not provide sufficient light. However, the emissive bands of the mid-wave infrared (MWIR) and long-wave infrared (LWIR) can be used to distinguish the location of these wires. LWIR sensors are typically used for pilotage applications. In both the LWIR and MWIR, the signal to noise depends on the wire emissivity and reflectivity as well as the ground and sky background path radiance. The signal to noise ratio is strongly dependent on the elevation of the viewing angle. In this paper, we model the signal to noise ratio as a function of elevation viewing angle using wire reflectivity and emissivity as well as MODTRAN calculations for path radiance. We also take MWIR and LWIR measurements to compare these two bands to the modelling results. We provide a summary of both model and measurements and make conclusions. © 2021 Optica Publishing Group under the terms of the Optica Open Access Publishing AgreementOpen access journalThis item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at [email protected]