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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
  
Techniques developed for accuracy assessment must take into 
consideration the factors that are sources of error in image and 
the methods used for assessing accuracy in a single image and 
for a pair of images. 
Serious erosion processes affect the coastal areas. Erosion 
monitoring can be best performed using change detection 
techniques. 
The coastal erosion is a natural phenomenon by which the coast 
line advances into the shore, under the continues influence of 
the natural factors, (climatic factors and the configuration of the 
coastal currents, the winds and hydrological regime and the 
waves and also the pollution), the hydro technical and 
protection constructions in the coastal aria modified the 
currents regime  re-directing them and producing an 
deceleration of the erosion phenomena in the related zone but in 
exchange adjacent areas can be subject to increased erosion 
phenomena due to the change in marine currents regime. These 
processes have a variable evolution speed in time and space and 
are a continuous threat for the human establishments from the 
coastal aeries, and also for the ecosystem. 
Monitoring of these kind of phenomena can be done only with a 
database of an geographical information system (GIS), which 
should contain special data (satellite and aerial imagery, maps 
etc) and also geographical, geological, socio-economical 
information. The Romanian coastal aria stretches on a pretty 
long distance. Detecting the changes in the costal line is quite 
easy when utilizing images that come from a single sensor. 
Sensors operating in the field of microwaves have the advantage 
that they do not depend on the visibility conditions and the dry 
land and water surfaces appear distinct, each having a specific 
response. In the coastal areas the level differences are reduced, 
so the geometrical distortions are also reduced, remaining the 
ones characteristic to the data used. 
CHANGE DETECTION 
1. General characterizations of the Romanian Black Sea 
shore 
Romania is placed in the Northwest side of the Black Sea, with 
a 243km shore. 
The general orientation of the shore is to the North South, the 
northern limit being formed by the Chilia channel (45?12* north 
and 29"40'east), which makes the shared border with Ukraina 
and the southern limit with Bulgaria being formed by a 
conventional line, which passes south of Vama Veche (43?44' 
north and 28°35’). The open sea limit of the territorial waters is 
considered to be at a 12-mile distance to the shore line; in figure 
| is presented the physic-geographical maps of the Romanian 
Black Sea shore. 
Genetically and especially morphological the Romanian 
seashore presents a variety of aspects. Northern sector is an 
accumulative shore, formed mainly by littoral lines, sandy and 
in submersibile. Southern sector the shoreline is obvious being 
formed by a high cliff, which is interrupted by parts, which are 
cut off the sea also by sand aeries. To the modification of the 
actual morphological aspects of the two existing sectors 
contributes in proportions and combinations, factors of different 
origins, such as litology the fluvio-marine accumulations, 
waves, currents, level fluctuations, seismically activity, winds, 
precipitations fauna and flora and also human activities. 
The northern sector takes 68% from the Rumanian shore lying 
in the eastern extremity of the Danube Delta, between Gura 
Musura from the secondary delta, Chilia and Capul Midia. 
The existence of positive eustatism of the Black Sea 
(0.5cm/year) gave birth to a slight sea transgression shown by 
719 
swamps in the river marine movment resulted from the 
sediments of the delta deposits. At the moment, in the 
cordon/Sulina shore sector there is precise demarcation line 
because the pre/existing sandy aria is submersed under water 
(-0,80m). In the aria of the Sulina channel (behind the dams, the 
shore had a rapid forward movement, looking overlay like a 
spur adjacency into the sea. Between Sulina and Sf. Gheorghe 
there is a sandy belt area almost as a straight line (with different 
lengths), with a tendency to move towards west. South in the 
mouth of the Sf. Gheorghe channel is developing the island 
Sahalin (it appears for the first time on the 1830 and1857 maps, 
made by the representatives of the Delta Commission). In the 
last 40 years it stretched to the South and moved to the West, 
almost closing the Zatoane - Ciotic zone, transforming it into a 
lagoon. From Ciotic to Chituc there is a sandy belt/aria 
positioned between the sea and the lagoon complex Razelm- 
Sinoe, pierced by the Portita mouth through which the strong 
storms often produce ruptures in the littoral belt south to Portita. 
The littoral belts which border the Danube delta and the Ravel 
lagoon to the east are formed from instable dunes, with heights 
varying between 0.20m and 1.50m.These sand are often moved 
either by the sea waves which cross the belts during storms, or 
by the strong winds which blow in these parts. Generally the 
littoral belts have variable widths and are in a continuous 
displacement, which clearly show the tendency to move to the 
west. The southern sector contains 3296 from the Romanian 
shore length and has the structural characteristics of a high cliff. 
This sector stretches south of Capul Media to the border with 
Bulgaria, the land configuration being determined by the 
morphology litology and structure of the deposits which form 
the Dobrogea Plateau. The shore in this sector has a great 
stability and undergoes a continuous but slow process of retreat 
because of the erosion accelerated by the action of 
atmospherical and biological factors and also of underground 
waters which are generating land slides with the aspect of false 
terraces. The solutions to diminish the erosion and slide 
processes are to build dams to consolidate the cliffs. Today the 
zone is characterized by a diminishing process of the beaches. 
The aspect of the shore in between Constanta and Vama Veche 
is given by the complex geological structure. The combined 
action of the waves and marine currents determined the 
apparition of small gulfs, which were separated from the sea by 
littoral belts. 
2. Accuracy assessment aspects for change detection 
Accuracy is considered to be the degree of closeness of results 
to the values accepted as true. Some of the accuracy assessment 
methods are: the variance analysis, minimum accuracy value 
used as an index of classification accuracy, spatial error and 
class attribute errors, a probabilistic approach for change 
detection and land cover classes are abstraction and 
generalizations of the real world in order to provide discrete 
values for continues To obtain a robust change detection, some 
environmental factors and variables must be taken into 
consideration, such as atmospheric conditions, soil 
characteristics, vegetation cycles, hydrologic cycles and others. 
Most of the environmental features are extremely dynamic; in 
most of the cases the temporal and geometric resolution of 
remote sensed data cannot cover the dynamic domain of the 
environmental parameters evolution (atmospheric conditions, 
soil moisture, and other environmental related phenomena). In 
change detection studies we should have in mind the 
differences in the phenological state of different varieties of the 
same species and the time the data sets were acquired (most 
suitable at the same date of the year).