In the TM classification these effects are averaged, allowing 
apparent trends to be seen more clearly. Two levels of riparian 
forest may indicate a gradual transition from creekbed to the 
dominant hardwood association. On the north and west facing 
slopes east of the creek, the contribution of hardwood 2 is 
generally overwhelmed by that of hardwood 1; while on the other 
side of the creek the east-facing stand of hardwood 2 appears 
more uniform than in the aircraft version. The presence of red 
spruce in the red pine plantings is still evident, but as isolated 
blocks where the spruce signature apparently exceeds that of the 
pine. While detail has clearly been lost, the classifications are 
quite similar. Evaluating the nature and impact of this loss of 
detail will have to await our next field visit once the snow melts. 
The TM classification using the color infrared bands was very 
similar to the one based on all six non-thermal bands. There were 
a few anomalies, such as road pixels and excess hardwood 2 in 
the field and some missing hardwood 2 on the west side of the 
creek. It would seem that the additional blue and mid infrared 
bands make a contribution in identifying forest types. 
The addition of the elevation to the color infrared aircraft bands 
had a dramatic effect on the classification. The slopes on the west 
(and to a lesser extent east) sides of the creek are delineated quite 
clearly. This is shown in an intermediate shade of grey on the 
west side of the creek; the east side was merged with 
riparian/brushland. Highland areas which appeared as riparian in 
the previous classification (and might be wet meadows) were 
generally classified as hardwood. The degree of mixture of 
hardwoods 1 and 2 decreased, with hardwood 1 generally 
predominant. The same was true for red pine and red spruce, but 
areas of red pine appear to have been lost. In general, the amount 
of vegetative detail appears to be less. Although this might reflect 
a more orderly classification, it may also represent missing 
information. As additional bands are added to the classification, 
their effect can overshadow the variability associated with the 
previous bands. This may in fact clarify and improve the 
identification of forest types or it may hide interesting and 
potentially meaningful variations. 
The effects described above were even more pronounced when 
the aspect was combined with the aircraft bands to produce a 
classification. The creekbed riparian community was essentially 
lost, but the east facing slopes west of the creek are clothed in 
almost uniform hardwood 2. Hardwood 1 generally 
predominates over hardwood 2 elsewhere but the more subtle 
ridge structure on the east side of the creek is revealed (shown in 
a slightly darker grey). An area of hardwood 2 south of the 
pasture, which appeared mixed on the basic classification and 
almost disappeared on the elevation classification, is now a major 
feature. Two of the red pine plantations are clearly visible but 
one shows more as red spruce than red pine. 
Preliminary Accuracy Assessment 
A preliminary accuracy assessment was performed using the 28 
Observation sites mentioned above (Table 1). The selection of 
sites needs more refinement but several observations can be 
made. The line of demarcation between hardwood 1 and 
riparian/brushland needs to receive more study. Shadows cast on 
the road as it approaches the bridge over the creek near the top of 
the image produce a darker area which is misinterpreted as spruce 
or pine. Otherwise, the classifications based on the digitized 
aerial photograph alone and combined with elevation provide a 
better correspondence to the ground truth. A more complete 
accuracy assessment with a larger number of field observations 
will be developed to provide a more definitive evaluation. 
Table 1 
Cover Type Classification based on 
(Number of Sites) Air TM (6) TM (3) Air & Elev Air & Asp 
Red Spruce (3) 3 2 2 3 2 
Red Pine (2) 2 2 2 0 2 
Hardwood1 (10) 8 5 5 7 9 
Hardwood2 (2) 2 2 2 2 2 
Riparian (8) 6 3 3 8 1 
Pasture (3) 3 3 3 3 3 
Total Correctly 
Identified 24 $7 17 23 19 
"Modeling" 
"Modeling" preserves the full spectral detail in the classification 
while adding an additional dimension, either of elevation or 
aspect (or both). While one can examine the coincidence of 
certain classes with an elevation or aspect range, the assignment 
of combinations is based primarily on a priori knowledge. For 
instance, red spruce are generally found above 4000 feet (1219 
meters). This could be quite useful in separating red spruce and 
red pine, which are spectrally quite similar, at least on the July 
data. It could also reveal associations which might be worth 
investigating. Using this approach it was possible to separate red 
pine from red spruce, hardwood 2 on the slopes west of the creek 
from that by the pasture and to clearly display the lower 
elevations associated with the creekbed. Using aspect and the 
basic classification in a model also separated hardwood 2 east and 
west of the creek but did not appear to have much beneficial 
effect on separating red spruce and red pine or on delineating the 
creekbed. This approach will require more knowledge to fully 
appreciate its capabilities but it looks like a very powerful tool for 
extending acquired information to a larger area. 
CONCLUSIONS 
The effect of spatial and spectral resolution on the determination 
of forest communities was examined by comparing classifications 
of digitized aircraft photography at 3 meter spatial resolution and 
TM imagery, using the six non-thermal bands and those 
equivalent to color infrared photography, at 30 meter resolution. 
The aircraft-based classification provided much greater detail 
demonstrating a small characteristic distance of change in these 
temperate mountainous forests. The larger TM pixel averaged 
much of this detail to produce a classification of more uniform 
classes and graduated change, which may be less representative of 
the surface vegetation but nevertheless useful for studies of larger 
areas. The addition of the blue and mid infrared TM bands does 
improve the classification when compared with the color infrared- 
equivalent bands of TM. The inclusion of elevation and aspect 
- adds additional information and capability and may be useful in 
creating a more accurate forest delineation. Future work will 
examine other areas within the study site and other data source 
as well as exploring some of the interesting implications noted 
above. 
248 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B7. Vienna 1996 
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