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Photogrammetry ' Lecture 14

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... that, with the given lens, contact prints of a suitable mean photo scale ... High sun intensity implies that the shadows of the photograph become too dense, ... – PowerPoint PPT presentation

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Title: Photogrammetry ' Lecture 14


1
  • Lecture 14 Content
  • Flight preparation
  • Equipment
  • Weather conditions
  • Flying height
  • Coverage

2
  • Flight preparation
  • a single flight of an aircraft includes a take
    off to touch down
  • To secure satisfactory air cover, the following
    must be considered
  • Proper equipment must be used
  • Weather conditions, including height and sun
    intensity must be favorable

3
  • The flying height is so chosen that, with the
    given lens, contact prints of a suitable mean
    photo scale are produced
  • The accuracy for contouring with certain
    instruments in the United States is often defined
    by
  • C-factor Flying Height (H) / Contour Interval
    (CI)
  • Used for vertical wide-angle photography with
    nominal focal length of 150mm

Scale of photograph f / (H-h)
4
(No Transcript)
5
  • The area of interest must be completely and
    systematically covered so that every bit of
    ground appears on at least two photographs
  • In addition, the optical axis must be nearly
    vertical at the time of exposure
  • Considerations in the flight planning are covered
    in the following slides
  • Equipment
  • Weather conditions
  • Flying height
  • Coverage

6
  • Equipment
  • The aircraft
  • The aircraft must be able to carry the aerial
    camera
  • The aircraft must be capable of flying at the
    height required (high or low)
  • The camera
  • Mounted on the gimbal to keep the camera
    stationary, ensuring that the optical axis passes
    through the center of the lens
  • Free to rotate about the optical axis to
    facilitate different camera orientation

7
  • Weather conditions
  • The following affect the stability of the
    aircraft and should be avoided
  • Dense, whitish, turbulent clouds
  • Cumulus clouds are turbulence
  • Air pockets, in which there is a sudden downward
    current of air
  • Photographs cannot be normally taken through
    cloud or fog, smoke, dust or haze.
  • High sun intensity implies that the shadows of
    the photograph become too dense, and obscure
    detail
  • Rainy conditions must be avoided

8
  • Shadows obscure details, so that the sun should
    be fairly high in the sky to give a reasonably
    short shadow
  • Necessary for aircraft, camera and crew to stand
    by for many days before the desired weather
    conditions is obtained
  • Cost of flying is very high

9
  • Flying height
  • The mean average scale of the air cover should be
    approximately the same as the desired scale of
    the compilation map
  • Given focal length of the camera lens, and a
    given compilations scale, the necessary height of
    the aircraft can be calculated using
  • Scale of photograph f / (H-h)

10
Scale of photograph f / (H-h)
  • An example
  • The photo scale 1/10,000 is required, focal
    length is 150mm and h is 100m above mean sea
    level

a
b
f
S
Horizontal plane Representing mean ground level
H
B
A
h
Mean sea level
11
  • Applying the formula
  • 1/10,000 0.150 / (H 100) m
  • i.e.
  • H 100 1500m
  • H 1600m
  • Therefore the flying height must be 1600m
  • Given the same focal length and the same size of
    format, the higher the aircraft flies the greater
    the area of ground covered, and the less the
    number of photographs required to cover any
    particular area of land
  • Typical aerial photo format is 9inx9in
    (230mmx230mm)
  • Therefore the greater the flying height, the more
    economical the coverage

12
  • Alternatively, the less the flying height, the
    greater the scale, the more detail that can be
    readily discerned and the greater the plotting
    accuracy
  • Greater the flying height increases the thickness
    of haze and dust that light rays must penetrate,
    with consequent loss in the photograph quality
  • Normal flying heights maybe between 1000m to
    4500m above ground level, therefore we expect
    flying cost to increase in mountainous areas

13
  • Coverage
  • Systematic coverage is obtained by flying the
    aircraft at a fixed height, in a series of
    straight lines, and taking photographs at regular
    intervals
  • The photographs taken during the time that the
    aircraft flies along any one of these straight
    lines are known collectively as a run

14
  • Each photograph in a run should overlap its
    predecessor by 60

Aircraft
Aircraft
1st
2nd
1st
2nd
3rd
60 overlap
double overlap
  • Double overlap usually is 20of each of the three
    photographs

15
  • Having flown one complete run the aircraft must
    turn around and fly back another straight line,
    again taking photographs at regular intervals
  • The second strip of photographs must also overlap
    the first run, this is known as the lateral
    overlap
  • Lateral overlap is usually between 20 to 30
  • Runs will normally flown in a direction parallel
    with the longest dimension of the land to be
    covered

16

1st run

2nd run

Lateral overlap
3rd run

4th run
Plan showing later overlaps
17
Overlap between Runs or Swaths
18
Exposure for 1st strip
Exposure for 2nd strip
Exposure for 3rd strip
Exposure for 4th strip
A typical flight plan
19
  • Other factors to be considered in planning
    aerial photography include
  • The intended use of photography (quantitative or
    interpretive)
  • The desired product (Map, orthophoto, mosiac,
    etc)
  • The specified accuracy
  • The size and shape of the interested area
  • The amount and disposition of relief
  • The scale of photography (influences the final
    scale of the end product, camera to be used, and
    so on)

20
  • Computational steps for flight planning
    (refer to text book)
  • Choose flight stripes which will minimize the
    number of aircraft turns and realignment.
  • Compute the flying height using (Hf/S) or the
    C-factor equation
  • Add the mean site elevation to the computed
    height (H)
  • Determine the ground coverage per image from the
    film format size and photo scale
  • Determine the ground separations between photos
    (60 overlap)
  • Determine the time between exposures
  • Calculate the distance between photo centers.
  • Compile the number of photos per run
  • Calculate the separation between runs
  • Determine the number of runs required to cover
    the area
  • Calculate the spacing of flight lines on the map
    and the number of photos needed.

21
  • The End
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