Search results for [Seismic reflection method.] at NC Cardinal

Results 1 to 8 of 8

Linearized inversion of reflection traveltimes / by Lee, Myung W.(CARDINAL)269815; Agena, W. F.(CARDINAL)269676;

Includes bibliographical references (page 21).

Subjects: Seismic reflection method.; Seismic traveltime inversion.; Seismology;

Available copies: 1 / Total copies: 1

On-line resources: Suggest title for digitization;

unAPI

Reconnaissance geology of the inner continental shelf, Cape Fear region, North Carolina / by Meisburger, Edward P.(CARDINAL)285166; Coastal Engineering Research Center (U.S.)(CARDINAL)161589;

Bibliography: pages 84-89.

Subjects: Continental shelf; Marine sediments; Seismic reflection method.;

Available copies: 1 / Total copies: 1

On-line resources: Suggest title for digitization;

unAPI

Application of continuous seismic-reflection techniques to delineate paleochannels beneath the Neuse River at U.S. Marine Corps Air Station, Cherry Point, North Carolina / by Cardinell, Alex P.(CARDINAL)166997; United States.Marine Corps(CARDINAL)137688;

Includes bibliographical references (pages 19-20).

Subjects: Sedimentation and deposition; Seismic reflection method.;

Available copies: 1 / Total copies: 1

On-line resources: Suggest title for digitization;

unAPI

Miocene extension and post-Miocene transpression offshore of south-central California / by Sorlien, Christopher C.(CARDINAL)279104,author; Luyendyk, Bruce P.(Bruce Peter),1943-(CARDINAL)269826; Meltzer, Anne S.(CARDINAL)269267; Miller, Kate C.(CARDINAL)269871; Nicholson, Craig.(CARDINAL)269847;

Includes bibliographical references.[V. 1]. Text -- [volume 2]. Portfolio of 5 folded maps.

Subjects: Geology, Stratigraphic; Geology, Structural; Geology, Structural; Seismic reflection method.;

Available copies: 1 / Total copies: 1

unAPI

Buried oyster shell resource evaluation of the eastern region of the Albemarle Sound / by Sampair, James L.(CARDINAL)137222; North Carolina.Division of Marine Fisheries.(CARDINAL)135892;

Subjects: Oyster shell.; Marine resources; Marine sediments; Seismic reflection method.; Core drilling.;

Available copies: 1 / Total copies: 2

On-line resources: https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095; https://digital.ncdcr.gov/documents/detail/4320095;

unAPI

Results of the application of seismic-reflection and electromagnetic techniques for near-surface hydrogeologic and environmental investigations at Fort Bragg, North Carolina / by Meyer, M. T.,1952-(CARDINAL)210982,author; Fine, Jason M.(CARDINAL)222724; United States.Department of the Army.(CARDINAL)143432; Geological Survey (U.S.)(CARDINAL)154385;

Includes bibliographical references (pages 39-40).

Subjects: Ground penetrating radar.; Hydrogeology; Prospecting; Seismic prospecting; Seismic reflection method.;

Available copies: 1 / Total copies: 1

On-line resources: Suggest title for digitization;

unAPI

True--amplitude processing techniques for marine, crustal-reflection seismic data / by Lee, Myung W.(CARDINAL)269815; Hutchinson, Deborah R.(CARDINAL)308209;

Includes bibliographical references (page 21).Preserving the relative true-amplitude of seismic traces provides significant advantages for deep crustal investigations, particularly for the identification and analysis of deep reflections originating near the crust-mantle boundary. Preserving lateraI variations along deep reflections is also important for resolving amplitude changes due to geologic causes rather than to artifacts from recording or source conditions. Three relative true-amplitude processing methods (automatic edit, single-trace equalization, and a common-depth-point gather equalization) were applied to the 20-second seismic data of the Great lakes Multidisciplinary Program on Crustal Evolution in order to evaluate the performance of the different techniques. Particular attention was paid to the improvement of signal-to-noise ratio and to the preservation of latera I continuity of the deep reflections. This study indicates that the automatic editing procedure based on the median amplitude of a common-depth-point gather provided substantial signal-to-noise ratio improvement of the seismic profiles. Post-stack amplitude balancing was commonly necessary to maintain the lateral continuity of the deep reflections and to reduce migration noise. The results from these processing strategies confirm the existence of large differences in crustal reflectivities and in the shape and geometry of crust-mantle transition beneath central and western lake Superior.

Subjects: Seismic reflection method; Submarine geology; Signal processing.;

Available copies: 1 / Total copies: 1

On-line resources: Suggest title for digitization;

unAPI

Continuous seismic reflection profiling of hydrogeologic features beneath New River, Camp Lejeune, North Carolina / by Cardinell, Alex P.(CARDINAL)166997; Harned, Douglas.(CARDINAL)162240; Berg, Steven A.(CARDINAL)216396; United States.Marine Corps.(CARDINAL)137688; Geological Survey (U.S.)(CARDINAL)154385;

Includes bibliographical references (pages 32-33).

Subjects: Seismic reflection method.; Seismology; Seismology; Seismology; Hydrogeology; Hydrogeology; Hydrogeology; Groundwater flow; Groundwater flow; Groundwater flow;

Available copies: 1 / Total copies: 1

On-line resources: http://pubs.er.usgs.gov/publication/wri894195;

unAPI

Results 1 to 8 of 8