Publications

Author [ Keyword(Asc)] Title Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
arctic
L. A. Mayer, U.S. Law of the Sea Cruise to Map the Foot of the Slope and 2500-m Isobath of the U.S. Arctic Ocean Margin, Barrow to Barrow. Cruise Report, University of New Hampshire (UNH), Center for Coastal and Ocean Mapping (CCOM)/Joint Hydrographic Center (JHC), 2003.PDF icon Mayer_03_cruise_report_HE-0302.pdf (1.5 MB)
L. A. Mayer and Armstrong, A. A., U.S. Law of the Sea Cruise to Map and Sample the US Arctic Ocean Margin, University of New Hampshire (UNH), Center for Coastal and Ocean Mapping (CCOM)/Joint Hydrographic Center (JHC), 2012.PDF icon HEALY1202_FINAL_CRUISE REPORT.pdf (9.31 MB)
L. A. Mayer, The Arctic Continental Shelf and Its Evolving Morphologic Context, in Challenges of the Changing Arctic: Continental Shelf, Navigation and Fisheries, vol. 19, M. Nordquist, Moore, J. M., and Long, R., Eds. Leiden, The Netherlands: Brill Nijhoff Press, 2016, pp. 17–41.
E. Heffron, Mayer, L. A., Jakobsson, M., Hogan, K., and Jerram, K., Distribution of an Acoustic Scattering Layer, Petermann Fjord, Northwest Greenland, 2017 Fall Meeting, American Geophysical Union (AGU). p. New Orleans, LA, 2017.PDF icon AGU2017_HeffronEtAl_OS31A-1355_LowRes.pdf (4.78 MB)
L. A. Mayer, Calder, B. R., and Mosher, D. C., U.S. Law of the Sea Cruise to Map and Sample the US Arctic Ocean Margin, Healy 1603, Center for Coastal and Ocean Mapping / Joint Hydrographic Center, University of New Hampshire, Durham, NH, 2016.
A. Normandeau, Dietrich, P., Hughes Clarke, J. E., Van Wychen, W., Lajeunesse, P., Burgess, D., and Ghienne, J. - F., Retreat Pattern of Glaciers Controls the Occurrence of Turbidity Currents on High-Latitude Fjord Deltas (Eastern Baffin Island), Journal of Geophysical Research: Earth Surface, vol. 124(6). pp. 1559-1571, 2019.
ARA Analysis
L. Fonseca and Rzhanov, Y., Automatic Construction of Acoustic Themes from Multibeam Backscatter Data, Shallow Water Survey Conference (SWS). Durham, NH, USA, 2008.
aquatic life
K. H. Varghese, Lurton, X., Smith, M., Miksis-Olds, J., and Mayer, L. A., Soundscape Assessment of a Deepwater (12 kHz) Multibeam Mapping Survey, in The Effects of Noise on Aquatic Life, 1stst ed., Springer Cham, 2024, pp. 1-17.
Applied sciences; Earth sciences; Angular response; Backscattering; Gassy sediments; Petroleum exploration
L. Fonseca, A Model for Backscattering Angular Response of Gassy Sediments: Applications to Petroleum Exploration and Development Programs, University of New Hampshire, Durham, NH, 2001.PDF icon fonseca-luciano-thesis.pdf (12.73 MB)
Applied sciences; Change detection; Nonlinear model; Satellite derived bathymetry; Total uncertainty propagation
R. Freire, Evaluating Satellite Derived Bathymetry in Regard to Total Propagated Uncertainty, Multi-Temporal Change Detection, and Multiple Non-Linear Estimation, University of New Hampshire, Durham, NH, 2017.PDF icon friere-ricardo-dissertation-2017.pdf (2.82 MB)
Applied sciences; Asvs; Encs; Nautical charts; Obstacle avoidance
S. Reed, Providing Nautical Chart Awareness to Autonomous Surface Vehicles, University of New Hampshire, Durham, NH, 2018.PDF icon reed-sam-thesis-2018.pdf (4.57 MB)
Applied sciences; ASV; Autonomous surface vessel; Control system; Hydrography; Path planning; Unmanned
D. Manda, Development of Autonomous Surface Vessels for Hydrographic Survey Applications, University of New Hampshire, Durham, NH, 2016.PDF icon manda-damian-thesis.pdf (33.73 MB)
applications
H. K. Heidemann, Stoker, J., Brown, D., Olsen, M. J., Singh, R., Williams, K., Chin, A., Karlin, A., McClung, G., Janke, J., Shan, J., Kim, K. H., Sampath, A., Ural, S., Parrish, C. E., Waters, K., Wozencraft, J., Macon, C. L., Brock, John, Wright, C. Wayne, Hopkinson, C., Pietroniro, A., Madin, I., and Conner, J., Applications, in Airborne Topographic Lidar Manual, Bethesda, Maryland: American Society for Photogrammetry and Remote Sensing (ASPRS), 2012, pp. 283-423.
Analysis
R. S. Hawkins, Miksis-Olds, J., and Smith, C. M., Variation in Low-Frequency Estimates of Sound Levels Based on Different Units of Analysis, Journal of the Acoustical Society of America, vol. 135. Acoustical Society of America, pp. 705-711, 2014.
amerasian basin
K. Brumley, Mukasa, S. B., O'Brien, T. M., Mayer, L. A., and Chayes, D. N., Dredged Bedrock Samples from the Amerasia Basin, Arctic Ocean, 2013 Fall Meeting, American Geophysical Union (AGU). San Francisco, CA, 2013.
Ambient Sound
J. Miksis-Olds, Global Trends in Ocean Noise, in Effects of Noise on Aquatic Life II, vol. 2, A. N. Popper and Hawkins, A., Eds. New York, NY: Springer Science & Business Media, LLC, 2016, pp. 713-718.
J. Miksis-Olds, Bradley, D. L., and Niu, X. M., Decadal Trends in Indian Ocean Ambient Sound, Journal of the Acoustical Society of America, vol. 134. Acoustical Society of America, pp. 3464-3475, 2013.
J. Miksis-Olds, Dugan, P. J., Martin, S. B., Klinck, H., Mellinger, D. K., Mann, D. A., Ponirakis, D. W., and Boebel, O., Ocean Sound Analysis Software for Making Ambient Noise Trends Accessible (MANTA), Frontiers in Marine Science, vol. 8:703650. 2021.
ambient ocean sound
M. H. Al-Badrawi, Bearing Stake 1977 Revisited: An understanding of Ambient Sound Sources in the Indian Ocean, Journal of the Acoustical Society of America - Express Letters, vol. 148, No. 4. pp. EL320-EL325, 2020.
airborne topographic-bathymetry lidar
J. Wozencraft, Aslaksen, M., Imahori, G., Pe'eri, S., and Witmer, J., Using JALBTCX - USACE Airborne Topographic-Bathymetric Lidar to Update Coastal Bathymetry on NOAA Nautical Charts, 2016 Canadian Hydrographic Conference. Halifax, Nova Scotia, Canada, 2016.
airborne
R. T. Pack, Brooks, V., Young, J., Vilaça, N., Vatslid, S., Rindle, P., Kurz, S., Parrish, C. E., Craig, R., and Smith, P. W., An Overview of ALS Technology, in Airborne Topographic Lidar Manual, Bethesda, Maryland: American Society for Photogrammetry and Remote Sensing (ASPRS), 2012, pp. pp. 7-97.
Aids to Navigation
S. Engstrom, Sullivan, B. M., and Lewald, R. D., Current work status of S-125 Navigational Services, International Hydrographic Organization, Monaco, 2016.PDF icon NIPWG 3-28.1_S-125_NavigationalSerevices.pdf (281.8 KB)
AI
R. Arsenault and Schmidt, V., A Mapping Focused Open-Sourced Software Framework for Autonomous Surface Vehicles, Canadian Hydrographic Conference. p. Quebec City, Quebec, Canada, 2020.PDF icon 202-4Du6-2810.pdf (143.96 KB)
agroacoustics
J. Miksis-Olds and Nichols, S. M., Is Low Frequency Ocean Sound Increasing Globally?, Journal of the Acoustical Society of America, vol. 139. Acoustical Society of America, pp. 501-511, 2016.
J. Miksis-Olds, Donaghay, P. L., Miller, J. H., Tyack, P. L., and Nystuen, J. A., Noise Level Correlates with Manatee Use of Foraging Habitats, Journal of the Acoustical Society of America, vol. 121. Acoustical Society of America, San Francisco, CA, pp. 3011-3020, 2007.
J. Miksis-Olds, Are Manatees Modifying Their Vocalizations to Compensate for Noise?, Journal of the Acoustical Society of America, 2006.
Affine transformation
H. Hu, Euclidean Reconstruction of Natural Underwater Scenes Using Optic Imagery Sequence, University of New Hampshire, Durham, NH, 2015.PDF icon Han_Thesis.pdf (2.78 MB)
acoustical oceanography
B. Howe, Miksis-Olds, J., Rehm, E., Sagen, H., Worcester, P. F., and Haralabus, G., Observing the Oceans Acoustically, Frontiers in Marine Science, vol. 6. p. 426, 2019.PDF icon Howe et al_2019_Frontiers.pdf (6.67 MB)
acoustical oceanographic
S. Loranger, Bassett, C., and Weber, T. C., Measurements of the Acoustic Properties of Crude Oil, 5th Joint Meeting of the Acoustical Society of America and the Acoustical Society of Japan. p. Honolulu, HI, 2016.
acoustical measurements
T. C. Weber and Ward, L. G., Observations of Backscatter from Sand and Gravel Seafloors Between 170 and 250 kHz, The Journal of the Acoustical Society of America, vol. 138. Acoustical Society of America, pp. 2169–2180, 2015.PDF icon weber-ward-acoustical-society-2015.pdf (2.89 MB)
acoustical engineering
S. Loranger and Weber, T. C., Diameter and Density Dependent Target Strength of Submerged Oil Droplets Measured by a Broadband, High-frequency Echo Sounder, 169th Meeting of the Acoustical Society of America. p. Pittsburgh, PA, 2015.
Acoustic source identification
J. Miksis-Olds and Nichols, S. M., Is Low Frequency Ocean Sound Increasing Globally?, Journal of the Acoustical Society of America, vol. 139. Acoustical Society of America, pp. 501-511, 2016.
Acoustic signal processing
J. Miksis-Olds, Are Manatees Modifying Their Vocalizations to Compensate for Noise?, Journal of the Acoustical Society of America, 2006.
acoustic seafloor scatter rock
D. R. Olson, Lyons, A. P., and Sæbø, T. O., Measurements of High-Frequency Acoustic Scattering from Glacially-Eroded Rock Outcrops, Journal of the Acoustical Society of America, vol. 139. pp. 1833-1847, 2016.PDF icon J_Acoust_Soc_Am_vol_139_1833-1847.pdf (7.23 MB)
Acoustic Scattering; Gas Bubbles; Multiple Scattering; Low-Frequency; Coal Oil Point Seep Field
A. M. Padilla, Loranger, S., and Weber, T. C., Evidence of Low-Frequency Multiple Scattering of Methane Gas Bubbles at Coal Oil Point, Santa Barbara, California, 174th Meeting of the Acoustical Society of America. p. New Orleans, LA, 2017.
Acoustic Scattering; Gas Bubbles;
A. M. Padilla, Rychert, K. M., and Weber, T. C., Target Strength Observations of Wobbly Bubbles, 171st Meeting of the Acoustical Society of America. p. Salt Lake City, Utah, 2016.
A. M. Padilla, Rychert, K. M., and Weber, T. C., Experimental Observations of Acoustic Backscattering from Spherical and Wobbly Bubbles, 173rd Meeting of the Acoustical Society of America. p. Boston, MA, 2017.
A. M. Padilla and Weber, T. C., Acoustic Scattering of Large Wobbly Bubbles, Bubbles 2017. Tromso, Norway, 2017.
A. M. Padilla and Weber, T. C., Target Strength Measurements of Spherical and Wobbly Bubbles, 177th Meeting of the Acoustical Society of America. p. Louisville, KY, 2019.
acoustic rough interface scattering
T. C. Weber and Ward, L. G., Observations of Backscatter from Sand and Gravel Seafloors Between 170 and 250 kHz, The Journal of the Acoustical Society of America, vol. 138. Acoustical Society of America, pp. 2169–2180, 2015.PDF icon weber-ward-acoustical-society-2015.pdf (2.89 MB)
acoustic positioning
B. Howe, Miksis-Olds, J., Rehm, E., Sagen, H., Worcester, P. F., and Haralabus, G., Observing the Oceans Acoustically, Frontiers in Marine Science, vol. 6. p. 426, 2019.PDF icon Howe et al_2019_Frontiers.pdf (6.67 MB)
acoustic noise
E. H. Roth, Schmidt, V., Hildebrand, J. A., and Wiggins, S. M., Underwater radiated noise levels of a research icebreaker in the central Arctic Ocean, The Journal of the Acoustical Society of America, vol. 133, pp. 1971–1980, 2013.PDF icon Roth et al. - 2013 - Underwater radiated noise levels of a research ice.pdf (4.65 MB)
J. Miksis-Olds, Donaghay, P. L., Miller, J. H., Tyack, P. L., and Nystuen, J. A., Noise Level Correlates with Manatee Use of Foraging Habitats, Journal of the Acoustical Society of America, vol. 121. Acoustical Society of America, San Francisco, CA, pp. 3011-3020, 2007.
Acoustic Features
J. Miksis-Olds, Tyack, P. L., and Buck, J. R., Captive Dolphins, Tursiops truncatus, Develop Signature Whistles That Match Acoustic Features of Human-Made Model Sounds, Journal of the Acoustical Society of America, vol. 112 (2). Acoustical Society of America, San Francisco, CA, pp. 728-739, 2002.
Acoustic Echo Sounders
T. C. Weber, De Robertis, A., Greenaway, S. F., Smith, S. M., Mayer, L. A., and Rice, G., Estimating oil concentration and flow rate with calibrated vessel-mounted acoustic echo sounders, PNAS (Proceedings of the National Academy of Sciences of the United States of America), vol. 108. 2011.
Acoustic Bearings
D. V. Harris, Miksis-Olds, J., Thomas, L., and Vernon, J., Fin Whale Density and Distribution Estimation Using Acoustic Bearings Derived From Sparse Arrays, Journal of the Acoustical Society of America, vol. 143. American Institute of Physics, pp. 2980-2993, 2018.PDF icon Harris et al. 2018_JASA DE.pdf (2.51 MB)
Acoustic Backscatter; M.S. in Earth Science
J. A. Alvarado, Acoustic Backscatter Processing for the Navy of Ecuador. 2011.
Acoustic backscatter
J. L. Pirtle, Weber, T. C., Wilson, C. D., and Rooper, C. N., Assessment of Trawlable and Untrawlable Seafloor Using Multibeam-Derived Metrics, Methods in Oceanography, vol. 12. Elsevier, pp. 18–35, 2015.PDF icon pirtle-weber-methods-oceanography-05-2015.pdf (1.34 MB)
A. R. Norton and Dijkstra, S. J., Observations of Acoustic Backscatter and Current Velocity Above an Eelgrass Canopy Over Multiple Tidal Cycles, New England Estuarine Research Society Fall Meeting. p. Block Island, RI, 2016.PDF icon Norton_FallNEERSAbstract.pdf (97.52 KB)
A. C. G. Schimel, Roche, M., Malik, M. A., Vrignaud, C., Masetti, G., and Dolan, M., Requesting and Comparing Intermediate Results from Several Backscatter Data Processing Software: A First Step Towards Future Consistency of Multibeam Backscatter Estimation, GeoHab 2018. p. Santa Barbara, CA, 2018.PDF icon Schimel_et_al_GeoHab_2018_Requesting_and_Comparing_Intermediate_Results.pdf (121.69 KB)
M. A. Malik, Schimel, A. C. G., Roche, M., Masetti, G., Dolan, M., and Le Deunf, J., A First Step Towards Consistency of Multibeam Backscatter Estimation Requesting and Comparing Intermediate Backscatter Processing Results From Backscatter Processing Software, Shallow Survey 2018. p. St. John's, NL, Canada, 2018.PDF icon SS2018_Abstract_Malik_Mashkoor.pdf (417.53 KB)
G. Masetti, Augustin, J. - M., Malik, M. A., Poncelet, C., Lurton, X., Mayer, L. A., Rice, G., and Smith, M., The Open Backscatter Toolchain (OpenBST) Project: Towards an Open-Source and Metadata-Rich Modular Implementation, U.S. Hydro 2019. p. Biloxi, MS, 2019.PDF icon US_Hydro_2019_OpenBST_abstract.pdf (66.36 KB)
M. A. Malik, Masetti, G., Schimel, A. C. G., Roche, M., Dolan, M., and Le Deunf, J., Preliminary Evaluation of Multibeam Backscatter Consistency Through Comparison of Intermediate Processing Results, U.S. Hydro 2019. p. Biloxi, MS, 2019.PDF icon US_Hydro_2019_BSIP_Abstract.pdf (128.49 KB)
Acoustic applications
G. Masetti, Kelley, J. G., Johnson, P., and Beaudoin, J., A Ray-Tracing Uncertainty Estimation Tool for Ocean Mapping, IEEE Access, vol. 6. IEEE, pp. 2136 - 2144, 2017.PDF icon preprint_08183436.pdf (906.82 KB)
G. Masetti, Mayer, L. A., and Ward, L. G., A Bathymetry- and Reflectivity-Based Approach for Seafloor Segmentation, Geosciences, vol. 8 (1). MDPI Publishing, Basel, Switzerland, p. 14, 2018.PDF icon geosciences-08-00014.pdf (7.16 MB)
A*
S. M. Kohlbrenner, Eager, M. K., Phommachanh, N. T., Kastrisios, C., Schmidt, V., and Kashyap, A., Toward a Marine Road Network for Ship Passage Planning and Monitoring, 30th International Cartographic Conference. International Cartographic Association, Florence, Italy, 2021.
C. Kastrisios, Schmidt, V., Kohlbrenner, S. M., Eager, M. K., Phommachanh, N. T., and Kashyap, A., Roads of the Sea, 2021 US Hydro Conference. p. Online, 2021.
3D reconstruction
H. Hu, Rzhanov, Y., Hatcher, P. J., and R. Bergeron, D., Binary Adaptive Semi-Global Matching Based on Image Edges, 7th International Conference on Digital Image Processing, vol. 9631. SPIE, Los Angeles, CA, 2015.PDF icon yuri-SICDIP-96311D.pdf (572.27 KB)
H. Hu, Euclidean Reconstruction of Natural Underwater Scenes Using Optic Imagery Sequence, University of New Hampshire, Durham, NH, 2015.PDF icon Han_Thesis.pdf (2.78 MB)
3D models
T. Butkiewicz, Multi-touch 3D Exploratory Analysis of Ocean Flow Models, Proceedings of OCEANS 2011 MTS/IEEE Kona. IEEEE, Kona, HI, USA, 2011.
3d chart of the future
R. Arsenault, Plumlee, M. D., Smith, S. M., Ware, C., Brennan, R. T., and Mayer, L. A., Fusing Information in a 3D Chart-of-the-Future Display, U.S. Hydrographic Conference (US HYDRO). The Hydrographic Society of America, Biloxi, MS, 2003.Image icon Arsenault_2003_Vislab_Fusing_info_in_3D_Chart-of-the-future_display.jpg (874.53 KB)

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