01770cam a22002174i 4500020001800000020001500018040002600033100002600059245004600085250002000131300005100151520101400202650002001216700002101236700002501257942001001282999001701292952008101309952008101390952008101471 a9781118343289 a111834328X cDLC REM 2015 C101 Or.1 aLillesand, Thomas M.,10aRemote sensing and image interpretation / aSeventh edition axii, 720 pages :bcolor illustrations ;c23 cm aThe front cover shows a topographic image derived from airborne lidar data, two days after the massive Oso landslide (March 2014, in Washington State). With more than forty deaths and nearly fifty homes destroyed, this event ranks among the deadliest landslides in U.S. history, Lidar (light detection and ranging; Chapter 6) is an active remote sensing technique that involves transmitting pulses of laser light toward the ground and measuring the elapsed lime of pulse returns. The laser's rapid pulse rate yields a dense cloud of points that can be analyzed to extract the shape of the ground surfaces, as well as trees, structures, and other objects. Analysis of lidar images from before and after the event shows that the landslide covered an area of approximately 120 hectares (300 acres) and that about four million cubic meters (5.2 mil Hon; cubic yards) of material moved downslope. Chapter 8, Section 8.14 (Natural Disaster Assessment) provides additional imagery and discussion of the Oso landslide 0aRemote sensing.1 aKiefer, Ralph W.1 aChipman, Jonathan W. cAEDBB c20805d20805 00104070992329aLBCbLBCcC101d2022-12-02r2022-12-02w2022-12-02yAEDBB 00104070992330aLBCbLBCcC101d2022-12-02r2022-12-02w2022-12-02yAEDBB 00104070992331aLBCbLBCcC101d2022-12-02r2022-12-02w2022-12-02yAEDBB