UEF Traditional Christmas Seminar on Forest Inventory
Full-waveform LiDAR research at the Hyytiälä siteIlkka Korpela, Docent
Outline
• What is FWF LiDAR all about? • Hyytiälä status, 12/2011• Foreseeable FWF research • Other optical-RS-projects in Hyytiälä
LiDARTime-stamped photons
Camera 1
Target
Free photons
Camera 2
Camera 3
What is FWF LiDAR all about?
Ilkka Korpela
t0
PTX
Time
TX: Pulse, 4 10 ns (1.2 3 m), e.g. 1064 nm (NIR),0.15 1 mrad (15 100 cm/km)
RX: Optics & Photondetector & Amplifier & ”Fast correlator”
System: Time, Position, Attitude of equipment & mirror
[X, Y, Z] (t) + etL × R(rX, rY, rZ)(t) × [sin(L)cos(L), sin(L)sin(L),cos(L)]
Illuminated area
Divergence, e.g. 1/e2
What is FWF LiDAR all about?
Ilkka Korpela
Transmitted pulse (t)
Sum wave thru the receiver optics (t)
Inherent noise ”smuggles”
Sum-wave: front, maxima, back edge. Unambiguous distance?
What is FWF LiDAR all about?
Ilkka Korpela
Ptarget [W/m2] Ptransmitted illumination LossesAtmosphere, canopy
Preceived f (Ptarget , Silhouette area, Reflectance, LossesAtmosphere, Optics)
Volumetric backscatter
What is FWF LiDAR all about?
Maximum amplitude
Distance perpendicular to power line, m
”Illumination”
H < 1 m”Reflectance”
”Structure”
Ilkka Korpela
Ilkka Korpela
Reflectance ~ PBackscatter/Pillumination
1. EchoPerforated Lambertia surface, LOSSES
2. Echo
First interaction (echo) has most information (intensity/amplitude),the subsequent data is inherently contaminated by losses.
What can we do with the rest of the waveform?
Hyytiälä Status 12/2011
• Hyytiälä experiment http://www.helsinki.fi/~korpela/HYDE_REF/• Pseudosystematic field plot measurements since 1996, last 2011 (student work in future?). • ’Optimized’ for tree-level analyses• 25000+ trees & 125+ plots to be ’LiDAR-updated’ 2/11-1/12
LiDAR data sets
• 2004, 1 km, 1-3 p/m2 (DR) Optech• 2006, 1 km, 6-8 p/m2 (DR) Optech• 2007, 1 km, 6-9 p/m2 (DR) Leica• 2008, 1,2,3,4 km 0.2-1.5 p/m2 (DR) Leica• 2010, 1,2,3 km, 1-8 p/m2 (DR + FWF) Leica• 2011a, 1, 1.5, 2 km, 1-8 p/m2 (DR + FWF) Leica• 2011b, 750 m, 8 p/m2, (DR+FWF), leaf-off, Riegl
2011 density map10 x 15 km
Hyytiälä Status 12/2011
Foreseeable FWF research (Hyytiälä)
• Seedling stand vegetation & DEM –analyses
• Tree species classification using FWF features (radiometric & new geometric)
• Descriptive study on pulse-target interactions (interpretation of field photos)
• LAI & stuff (Lauri)
What else could be studied with the experiment?
• Change detection (2004-2011)• Peatlands (Lakkasuo 2006 + 2011 LiDAR)• Old forests (Susimäki 2011, Kuivajärvi old growth)• Leaf-off vs. Leaf-on (+ sensor effects) • Gain of FWF in area-based inventory? (1-3 km LiDAR)
Other (optical) RS projects in Hyytiälä
• VHR satellite imagery exists (check with Miina Rautiainen et al. (UH), Tuomas Häme VTT)• Airborne Hyperspectral was acquired 2011 (Paras Pant -presentation) • Radar?
Future of Hyytiälä experiment
• 2012: airborne imaging campaigns for BRDF research (Can BRDF of the atmosphere be eliminated using normalization of at-sensor radiance images, in one image block?) Links to presentation by Anne Seppänen.
• Multidivergent LiDAR acquisitions: what can be gained thru 20, 60 and 120 cm footprint data (structure & species)
• Collaboration/teamwork is always welcome (share the workload in forest, invoices of RS campaigns, data analyses and writing).
Airborne imaging campaigns for BRDF research
KRÅNGLIGT
Refl.
”BRDF” or reflectance anisotropy varies between pine, spruce and birch (λ)No studies exist that utilize this, Seppänen et al. (UEF + UH), tries it!Reflectance calibration seems to be the bottleneck, and within sp- variation.
Ilkka Korpela
Thanks!