vanced 
ropean 
| about 
on are 
ARC, 
proved 
ftware 
aimed 
rborne 
d very 
bands 
| data. 
ase of 
id data 
ds and 
id data 
sults of 
amidal 
nan on 
nges (2 
though 
en data 
efforts 
1isition 
ealised 
cellent 
Is was 
ly 2 to 
scene. 
d level 
spected 
w 2003 
icopter 
flight, 
flight 
ie data 
ping at 
1annels 
f three 
and up 
ements 
is fully 
sed on 
ed for 
inst the 
severe 
es. 
ude in 
jn had 
vanced 
nain of 
References 
References from Journals: 
Bajic M., 1996, Method for the interpretation of a very short 
airborne video sequence of poorly visible artificial objects on 
the ground, Bulletin of Scientific council for remote sensing 
and photo interpretation of the Croatian Academy of sciences 
and arts, Vol. 14, pp. 31-47, (in Croatian), Zagreb, 1996. 
Bajic M., 2000, Redefinition of the objectives of the airborne 
remote sensing for humanitarian demining: exponential 
growth of the remedied area, Workshop on the Needs of 
Airborne and Space borne Data for Minefield Survey, Spar 
(Val), Italy, 9-10 March 2000. (See Bulletin of Scientific 
council for remote sensing and photo interpretation of the 
Croatian Academy of sciences and arts, Vol. 15-16, pp. 39- 
56, 2000./2001., Zagreb, 2001.) 
Bajic, M., Gold, H., Franjkovi¢ D., 2001, Airborne remote 
sensing system of the Faculty for traffic sciences, University 
of Zagreb, Bulletin of Scientific council for remote sensing 
and photo interpretation of the Croatian Academy of sciences 
and arts, Vol. 15-16, pp. 57-70, 2000./2001., (in Croatian), 
Zagreb, 2001. 
Javorovic I., 1996, Comparison of several methods for 
artificial object detection from panchromatic SPOT and 
aerophotogrammetric pictures, Bulletin of Scientific council 
for remote sensing and photo interpretation of the Croatian 
Academy of sciences and arts, Vol. 14, pp. 23-29, (in 
Croatian), Zagreb, 1996. 
Jelenic D., 2001, GIS of the mine action system in Croatia, 
Bulletin of Scientific council for remote sensing and photo 
interpretation of the Croatian Academy of sciences and arts, 
Vol. 15-16, pp. 83-99, 2000./2001., Zagreb, 2001, (in 
Croatian). 
Kovac T., Viher M., Javorovic I., 1994, Gooding of data 
collected during remote sensing process, Bulletin of 
Scientific council for remote sensing and photo interpretation 
of the Croatian Academy of sciences and arts, Vol. 13, pp. 
59-70, (in Croatian), Zagreb, 1994. 
Kovac T., 1996, Implementation of genetic algorithm 
technologies for the optimal scheduling of remote 
electromagnetic sensing, 
Bulletin of Scientific council for remote sensing and photo 
interpretation of the Croatian Academy of sciences and arts, 
Vol. 14, pp. 49-58, (in Croatian), Zagreb, 1996. 
Viher M., Javorovic L, 1994, An estimation of errors in the 
process of encoding of the vertical imaging by remote 
sensing, Bulletin of Scientific council for remote sensing and 
photo interpretation of the Croatian Academy of sciences and 
arts, Vol. 13, pp. 71-81, (in Croatian), Zagreb, 1994. 
References from Books: 
Gorseta D., Mladineo N., Knezic S., 2003, Choosing the 
optimal policies for risk reduction in mine contaminated 
areas, Wesex Institute of Technology, UK, June 2002, pp. 
497-506. 
References from Other Literature: 
Bajic M., 1999, Statistical model of the spatial distribution of 
landmines, basis for airborne wide area survey systems 
25 
testing, 1999 ARIS technical workshop on ground survey for 
humanitarian demining, Brest, France, 26-27 October 1999. 
Bajic M., 2002, Ttransformation from the users of donation 
to the partners that are adding value to scientific and 
technology implementation projects of humanitarian 
defining, Seminar on humanitarian mine action, progress 
under the mine ban treaties, achievements and lessons 
learned in South Eastern Europe, Proceedings on CD, 
Ministry of Foreign Affairs of the Republic of Croatia, 
Dubrovnik, 24-25 October 2002. 
Bajic M., Fiedler T., Gorseta D., 1998, GIS for demining 
activities in Croatia, Proceedings Demining Technologies 
International Exhibition, Workshops and Training Seminars, 
29.9-01.10.1998, Spar, Italy, pp. 187-193. 
Bajic M., Gold H., Contribution of the airborne remote 
sensing to demining of the mountains, case study Tulove 
grede - Velebit, GIS forum, International geographical 
information systems conference and exhibition, “GIS 
Odyssey 2002", 2" to 6™ September 2002, Croatia, Split, 
Trigger, Circular, Mallet and Dubrovnik. 
Bajic, M., Tadic, T., 2002, Airborne remote sensing for the 
general survey of damaged and mined high voltage network, 
GIS forum, International geographical information systems 
conference and exhibition, “GIS Odyssey 2002”, 2™ to 6™ 
September 2002, Croatia, Split, Trigger, Circular, Mallet and 
Dubrovnik. 
Fiedler T., 1998, GIS and photogrammetryc technologies, 
Croatian mine action center, seminar ‘New technologies for 
mine detection’, proceedings, pp. 52-59, Sisak, 17.11.1998, 
(in Croatian). 
Marinov A., 2002, Detection of landmines by radar for 
humanitarian demining, master degree thesis, University of 
Zagreb, postgraduate study Control of moving objects, 
Zagreb, 2002. 
Pismis L, 1999, Identification of imaging system with FLIR 
and TV cameras placed on aerial platform, University of 
Zagreb, postgraduate study Control of moving objects, 1999. 
Schutte K., Sahli H., Schrotmeier D., Eisl M., Varas F.J., 
Banc M., Uppsall M., Den Breejen E., 2001, ARC: A 
CAMCOPTR based minefield detection system, Fifth 
International Airborne Remote Sensing Conference, San 
Francisco, September 2001, 8 pages. 
References from websites: 
EC IST ARC, 2000, Airborne Minefield Area Reduction - 
ARC, EC IST-2000-25300, http://www.arc.vub.ac.be 
  
EC IST SMART, 2000, Space and airborne mined area 
reduction tools - SMART, EC  IST-2000-25044, 
www.smart.ac.be/#work. 
SEEMACC 2002, Regional cooperation in mine action, 
South — Eastern Europe Mine Action Coordination Council, 
www.see-demining.ore/main.htm