Geoinformation for Disaster and Risk Management - ISPRS
Geoinformation for Disaster and Risk Management - ISPRS
Geoinformation for Disaster and Risk Management - ISPRS
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Conclusion<br />
The LC PDGNSS NRTP approach described above<br />
demonstrates today's possibilities in monitoring<br />
tasks with cost-effective satellite methods. The<br />
achievable data quality using LC PDGNSS equipment<br />
is characterized briefly. Finally, the assignment of a<br />
flexible database solution meets the compulsory<br />
requirement of interoperable data exchange.<br />
It becomes apparent that while results obtained so<br />
far are already very satisfactorily, there is a further<br />
need <strong>for</strong> intensive research <strong>and</strong> development. Our<br />
main work actually concentrates on improving<br />
accuracy <strong>and</strong> reliability of the system, <strong>and</strong> as well on<br />
investigation of suitable “cheap” GNSS sensors. Of<br />
course the developed system can also be embedded<br />
<strong>for</strong> location finding in any widespread<br />
multifunctional GSN <strong>and</strong> is not restricted to l<strong>and</strong>slide<br />
monitoring.<br />
Acknowledgement<br />
The project “alpEWAS” is supported by a grant of the<br />
German Ministry of Economy <strong>and</strong> Technology within<br />
the Geotechnology Program.<br />
70