Tech Directions- October 2008

Off-the-Wall Project Brings Aerial Mapping Down to Earth By Andrew Davidhazy andpph@rit.edu HE technology of aerial photography, photogrammetry, has widespread applications in mapping and aerial surveying. A multibillion-dollar industry, aerial surveying and mapping is “big business” in both civilian and military sectors. While the industry has grown increasingly automated, employment opportunities still exist for people with a basic appreciation for the technology, who often receive ﬁnal training on the job. It’s a great ﬁeld to introduce to technology students. The activity described in this article brings the “aerial” aspects of aerial mapping and photography “down to earth.” Since taking students up in an airplane is not practical, you can turn the system sideways and instead of “ﬂying” above terrain you can simulate aerial photography in a classroom by turning it into a horizontal exercise. T Activity Details The activity simulates how someone would go about making estimates of the height of a subject (e.g., a water tower, telephone pole, a skyscraper, or other building) above level ground from a single aerial photograph. You can conduct it over two class periods, one for set-up and picture making and the second for “data reduction,” or measurement, and write-up. Andrew Davidhazy is a professor, Imaging and Photographic Technology, School of Photo Arts and Sciences, Rochester (NY) Institute of Technology. In brief, you will identify a corner of the classroom where the distance to a wall directly in front of a camera is known (this represents the simulated altitude of the plane above the ground) and where the wall stands for ground level. A piece of tape of presumably unknown length is taped to the other wall, forming the corner stands for the object whose height (length) must be determined photographically. Of course, students could simply measure the length of the tape without making a photograph, but the point of the exercise is to do it photographically and see how close the students can come to the actual length without touching or coming close to the tape. You might also have students estimate the length of the tape and see how close their estimates come to the photographically derived measurement. The results of the activity depend a lot on the care with which all measurements are made and the precision of the camera you have available, but my goal is not so much precision as broadening students’ thinking. The activity conveys that photography can be used not only for purposes of art and communication but also as a technology and a means for illustrating concepts in trigonometry and math. Classroom view of activity setup photography. Radial displacement is apparent when you can see the sides of buildings not directly in front of you. This perspective-based effect is also apparent in photographs taken from airplanes looking at buildings and vertical objects like telephone poles, and so forth. The objective in this activity is to replicate the procedure on the ground. F Student Assignment This activity tests whether a person can make a good estimate of the size of an object following principles associated with radial displacement as generally associated with aerial www.techdirections.com TECHNOLOGY EDUCATION 19 http://www.techdirections.com

Table of Contents Feed for the Digital Edition of Tech Directions- October 2008

Tech Directions Technically Speaking Contents Direct from Washington The Report Technology's Past Technology Today Mastering Computers Automotive Power and Energy Technology Education Career Directions Electronics Special Feature More than fun

For optimal viewing of this digital publication, please enable JavaScript and then refresh the page. If you would like to try to load the digital publication without using Flash Player detection, please click here.