22.1.4.47 Sea Level Measurement and Change

Chapter Contents (Back)
Sea Level. Ocean Level.

Bosch, W.[Wolfgang], Dettmering, D.[Denise], Schwatke, C.[Christian],
Multi-Mission Cross-Calibration of Satellite Altimeters: Constructing a Long-Term Data Record for Global and Regional Sea Level Change Studies,
RS(6), No. 3, 2014, pp. 2255-2281.
DOI Link 1404
BibRef

Carreno-Luengo, H.[Hugo], Camps, A.[Adriano],
Empirical Results of a Surface-Level GNSS-R Experiment in a Wave Channel,
RS(7), No. 6, 2015, pp. 7471.
DOI Link 1507
scattering over water. Local sea level and wave heights. BibRef

Handoko, E.Y.[Eko Yuli], Fernandes, M.J.[Maria Joana], Lázaro, C.[Clara],
Assessment of Altimetric Range and Geophysical Corrections and Mean Sea Surface Models: Impacts on Sea Level Variability around the Indonesian Seas,
RS(9), No. 2, 2017, pp. xx-yy.
DOI Link 1703
Accurate sea level time series from satellite altimetry. BibRef

Idris, N.H.[Nurul Hazrina], Deng, X.[Xiaoli], Din, A.H.M.[Ami Hassan M.], Idris, N.H.[Nurul Hawani],
CAWRES: A Waveform Retracking Fuzzy Expert System for Optimizing Coastal Sea Levels from Jason-1 and Jason-2 Satellite Altimetry Data,
RS(9), No. 6, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Cheng, Y.C.[Yong-Cun], Xu, Q.[Qing], Li, X.F.[Xiao-Feng],
Spatio-Temporal Variability of Annual Sea Level Cycle in the Baltic Sea,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Xu, X.Y.[Xi-Yu], Birol, F.[Florence], Cazenave, A.[Anny],
Evaluation of Coastal Sea Level Offshore Hong Kong from Jason-2 Altimetry,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804
BibRef
And: Addendum: RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
BibRef

Salameh, E.[Edward], Frappart, F.[Frédéric], Marieu, V.[Vincent], Spodar, A.[Alexandra], Parisot, J.P.[Jean-Paul], Hanquiez, V.[Vincent], Turki, I.[Imen], Laignel, B.[Benoit],
Monitoring Sea Level and Topography of Coastal Lagoons Using Satellite Radar Altimetry: The Example of the Arcachon Bay in the Bay of Biscay,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804
BibRef

Wang, N.[Nazi], Xu, T.[Tianhe], Gao, F.[Fan], Xu, G.C.[Guo-Chang],
Sea Level Estimation Based on GNSS Dual-Frequency Carrier Phase Linear Combinations and SNR,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link 1804
BibRef

Zawadzki, L., Ablain, M., Carrere, L., Ray, R.D., Zelensky, N.P., Lyard, F., Guillot, A., Picot, N.,
Investigating the 59-Day Error Signal in the Mean Sea Level Derived From TOPEX/Poseidon, Jason-1, and Jason-2 Data With FES and GOT Ocean Tide Models,
GeoRS(56), No. 6, June 2018, pp. 3244-3255.
IEEE DOI 1806
Atmospheric modeling, Data models, Load modeling, Orbits, Satellites, Tides, Level measurements, oceanography, sea measurements, tides BibRef

Yin, J., Perakis, A.N., Wang, N.,
An Ensemble Real-Time Tidal Level Prediction Mechanism Using Multiresolution Wavelet Decomposition Method,
GeoRS(56), No. 8, August 2018, pp. 4856-4865.
IEEE DOI 1808
discrete wavelet transforms, geophysics computing, harmonic analysis, marine engineering, meteorology, neural nets, wavelet decomposition BibRef

Dibarboure, G.[Gérald], Lamy, A.[Alain], Pujol, M.I.[Marie-Isabelle], Jettou, G.[Ghita],
The Drifting Phase of SARAL: Securing Stable Ocean Mesoscale Sampling with an Unmaintained Decaying Altitude,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
Continue the satellite mission after standard lifetime when altitude is drifting. BibRef

Poisson, J., Quartly, G.D., Kurekin, A.A., Thibaut, P., Hoang, D., Nencioli, F.,
Development of an ENVISAT Altimetry Processor Providing Sea Level Continuity Between Open Ocean and Arctic Leads,
GeoRS(56), No. 9, September 2018, pp. 5299-5319.
IEEE DOI 1809
Arctic, Sea surface, Sea ice, Sea level, Surface waves, Arctic Ocean, oceans sea level, radar remote sensing, satellite altimetry, sea ice BibRef


Avsar, N.B., Jin, S., Kutoglu, S.H.,
Recent Sea Level Changes in the Black Sea From Satellite Gravity And Altimeter Mesurements,
Gi4DM18(83-85).
DOI Link 1805
BibRef

Yusof, N.H.M., Mahmud, M.R., Abdullah, M.H.,
Effect of Long Term Tidal Constituents On Mean Sea Level Trend During El-nino And La-nina Phenomena,
GeoDisast17(225-234).
DOI Link 1805
BibRef

Faizuddin, A.R.M., Razali, M.M.,
Variation of Chart Datum Towards Maritime Delimitation Due to Rising Sea Level,
GeoDisast17(73-80).
DOI Link 1805
BibRef

Hamid, A.I.A., Din, A.H.M., Khalid, N.F., Omar, K.M.,
Acceleration of Sea Level Rise over Malaysian Seas from Satellite Altimeter,
GGT16(277-286).
DOI Link 1612
BibRef

Din, A.H.M., Abazu, I.C., Pa'suya, M.F., Omar, K.M., Hamid, A.I.A.,
The Impact of Sea Level Rise on Geodetic Vertical Datum of Peninsular Malaysia,
GGT16(237-245).
DOI Link 1612
BibRef

Reyes, S.R.C., Blanco, A.C.,
Assessment of Coastal Vulnerability To Sea Level Rise of Bolinao, Pangasinan Using Remote Sensing and Geographic Information Systems,
ISPRS12(XXXIX-B6:167-172).
DOI Link 1209
BibRef

Leblanc, K.[Kathryn],
Flood-risk Mapping from Storm Surges and Future Sea-level Rise in Antigonish County, Nova Scotia, Canada,
CGC10(53).
PDF File. 1006
BibRef

Hilger, K.B., Nielsen, A.A., Knudsen, P.,
Aspects of Remote Sensing in the GEOid and Sea level of the North Atlantic Region (GEOSONAR) Project,
SCIA99(Remote Sensing). BibRef 9900

Chapter on Remote Sensing, Cartography, Aerial Images, Buildings, Roads, Terrain, ATR continues in
Water Quality, Suspended Particulate Matter, Turbidity, Water Areas .


Last update:Oct 15, 2018 at 09:19:25