International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part Bl. Istanbul 2004 
  
Because of it's multi sensor multi spectral design the camera 
also fits perfectly for remote sensing application, like forestry 
analysis or agriculture monitoring. 
The DMC is a wide angle camera with a focal length and a 
field of view similar to a RMK TOP 15 film camera. 
The highest benefit of the new digital camera technology will 
be an increase of the flying hours per day and the flying days 
per year because of it's higher radiometric quality comparing 
to film. It will be possible to fly under worse light conditions 
or with lower sun angles and still fulfill the quality 
requirements of the mapping standards. 
Since the mid 80's a forward motion compensation FMC is 
used for aerial film cameras to improve the image quality and 
to avoid image blurring. Nowadays all aerial survey flight 
projects required a camera system with FMC. Because of the 
frame sensor technology the DMC has an implemented 
electronic FMC, which is a huge advantage and not possible 
with CCD line sensors. A time delayed integration TDI is 
used to generate the FMC. For large scale mapping project or 
for photo flights with long exposure time ( weak light 
conditions ) a FMC is a perquisite. 
For high resolution four 4k x 7k CCD frame sensors are 
mosaicked to a large format image frame with central 
perspective and very stable interior geometry. The final 
image size is 13824 x 7680 pixel. The footprint of this image 
has the same width of a film based aerial image ( across track 
) and approx 60% of the length ( along track, in flight 
direction ). This is a very important information, because the 
number of flight lines will remain the same comparing to a 
film camera and so the flying costs. 
The DMC is a “Cessna 206 class” camera, which means the 
system will fit into the majority of all survey aircraft in use 
with respect to it's power consumption and it's size and 
weight. A user can fly the camera in a single engine aircraft. 
The aircraft installation is pretty much the same as for a film 
based camera like the RMK TOP. A DMC will fit into all 
aircrafts modified for 9.5" film cameras. 
5. FDS FLIGHT DATA STORAGE 
To store the raw image data during the photo flight a reliable 
powerful mass storage device has to be part of the system. 
For further data processing the handling of this device has to 
be very user friendly. The DMC camera system is using 
flight data storage unit FDS, three units are required for a 
system, each FDS can store 250 GB of data, which means in 
total 750 GB, equivalent to 2200 aerial images. 
The FDS uses standard high speed fiber channel interface 
technology, it will be installed in the aircraft with a base 
plate, usually mounted to the seat rails of the aircraft. 
The size of one FDS is the same as the size of a small tower 
PC, the weight is approx 20 kg, the power consumption is 60 
W. The FDS can be installed and removed without 
disconnecting cables and without using any tools. It will be 
automatically powered up and down by the DMC camera 
module. If multiple FDS’s are available, an exchange will be 
possible in the air during the photo flight to extend the 
storage capacity. 
  
Figure 5 flight data storage unit FDS 
The FDS has a very reliable and ruggadized design, it 
contains two SCSI hard disk in a hardened pressurized 
enclosure. It can be operated up to 5000 m or 16000 ft ( 
8000 m or 26000 ft are optional available) flying altitude in 
an non-pressurized aircraft. The FDS is extremely robust and 
shock proofed, data safeness is absolutely assured. 
For image data post processing the FDS can be 
connected directly to a workstation in the office via a 
standard fiber channel interface. 
The FDS is a flexible and versatile data storage system, 
designed for airborne operation. 
6. DATA HANDLING IN THE FIELD 
After an aerial photo flight mission is completed the crew has 
to “develop” the digital film. Very often the airplane is on an 
“outbound mission” where the crew does not have access to 
the ground based post processing facility or the airplane has 
to get ready for the next mission as soon as possible. It will 
be required to download to raw image data to a removable 
media. To perform this task Z/I Imaging had developed a 
mobile field data copy station. This copy station can be taken 
on-site by the crew with the aircraft and used in the field for 
data copying. 
With the copy station the raw DMC image data can be 
downloaded from the onboard mass storage device to a 
removable media like hard disks, USB disk drives or tape 
drives. The user can copy the data either in the aircraft, in an 
office or hangar at the airfield or in a hotel room. The 
computer is equipped with 3 fiber channel interfaces to 
connect the 3 flight data storage units FDS and to ensure a 
high data transmission rate. A full set of FDS with approx 
2200 DMC images can be copied in less than 4 hours to 
removable IDE disk drives. The copy process runs in batch 
mode , which reduces the interaction with the operator. 
After the copy process is completed, the media e.g. 
removable hard disk drives will be shipped to the home 
office like an undeveloped film. 
The copy station can also be used as a utility for on-site 
image quality inspection. Software tools are provided to 
perform a quick view of the acquired image, the radiometric 
image quality can be evaluated immediately. This is a benefit 
against the film based camera, because the user does not have 
to wait for the film development and gets an immediate 
feedback on the success of the mission. 
A block diagram should illustrate the data flow. 
  
  
  
  
  
  
  
  
  
   
   
  
  
  
  
   
  
    
   
    
   
  
    
    
   
    
  
   
   
   
   
  
  
    
  
    
   
   
   
   
   
   
   
   
    
    
      
   
   
    
   
  
   
   
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