Helicopter MMR Reflectance Data (SNF) Data Set Guide Document Summary: A major aspect of the ground data collection effort in the SNF during the summers of 1983 and 1984 was the acquisition of helicopter canopy reflectance measurements. Canopy measurements were made at numerous sites with a helicopter-mounted Barnes multiband radiometer (MMR). MMR data were collected on ten dates in 1983 and eight dates in 1984. An additional Barnes radiometer was used to make simultaneous reference panel measurements. The canopy reflectance was derived from the canopy and reference panel measurements. All canopy and reference panel measurements were made under clear sky conditions. A majority of the helicopter measurements were taken at nadir view, although some off-nadir view angle measurements were taken primarily over black spruce and aspen sites. The reflectance factor is the ratio of radiant flux of the canopy measurement to that of the reference or calibration panel. Another component to be considered is atmospheric scatter, especially for aircraft measurements taken at higher altitudes. The amount of atmospheric scattering can be determined by using reflectance measurements of water targets. Reflectance measurements over water targets are included for all acquisitions in 1983. No water target measurements were taken during the 1984 field campaign. The summarized MMR data for both years, 1983 and 1984, are included in this data set. Fields include site ID number, number of observations averaged, code for altitude of instrument above the canopy, the time at which observations begin, the time at which observations end, sun zenith angle, sun azimuth angle, and reflectance for each of the bands (with standard deviations included within parenthesis). All measurements were taken at nadir, except where otherwise indicated. In 1984, MMR data were collected using off nadir view angles to measure the bi-directional reflectance characteristics of the forests. Table of Contents: 1. Data Set Overview 2. Investigator(s) 3. Theory of Measurements 4. Equipment 5. Data Acquisition Methods 6. Observations 7. Data Description 8. Data Organization 9. Data Manipulations 10. Errors 11. Notes 12. Application of the Data Set 13. Future Modifications and Plans 14. Software 15. Data Access 16. Output Products and Availability 17. References 18. Glossary of Terms 19. List of Acronyms 20. Document Information 1. Data Set Overview: Data Set Identification: Helicopter MMR Reflectance Data (SNF). Data Set Introduction: A major aspect of the ground data collection effort in the SNF during the summers of 1983 and 1984 was the acquisition of helicopter canopy reflectance measurements. Canopy measurements were made at numerous sites with a helicopter-mounted Barnes multiband radiometer (MMR). The MMR measures on the same wavelength bands as the Thematic Mapper Simulator. MMR data were collected on ten dates in 1983 and eight dates in 1984. An additional Barnes radiometer was used to make simultaneous reference panel measurements. The canopy reflectance was derived from the canopy and reference panel measurements. All canopy and reference panel measurements were made under clear sky conditions. A majority of the helicopter measurements were taken at nadir view, although some off-nadir view angle measurements were taken primarily over black spruce and aspen sites. The acquisition dates in 1983 were: May 5th and 16th, June 9th, July 12th and 13th, August 12th and 14th, and October 6th, 26th and 27th. The 1984 acquisition dates were: May 18th and 28th, June 3rd, August 2nd, 3rd and 16th, and September 16th and 23rd. Objective/Purpose: Not available. Summary of Parameters: Canopy reflectance, bi-directional reflectance, NDVI. Discussion: Reference panel measurements were used to convert voltages measured by the canopy instrument to reflectance factors. The reference panel was a surface painted with barium sulfate. The reflectance factor is the ratio of radiant flux of the canopy measurement to that of the reference or calibration panel. Another component to be considered is atmospheric scatter, especially for aircraft measurements taken at higher altitudes. The amount of atmospheric scattering can be determined by using reflectance measurements of water targets. Assuming the reflectance of water is zero, reflectance measured at these targets is a measure of the amount of atmospheric scatter. Reflectance measurements over water targets are included for all acquisitions in 1983. No water target measurements were taken during the 1984 field campaign. During the 1983 field campaign, the helicopter measurements were usually taken at an altitude of 400 feet, with a few observations at 200 and 300 feet. At an altitude of 400 feet and a radiometer field of view of 15 degrees, the canopy area being sensed is approximately 105 feet in diameter. In 1984, most measurements were taken at an altitude of 600 feet. To measure the same canopy area at this altitude, the field of view was reduced to 10 degrees, although on two dates this was reduced further to 6 degrees. At 600 feet, the reduction of the field of view from 10 to 6 degrees reduces the canopy area being sensed from 105 to 63 feet in diameter. There are approximately 317 observations made over 105 different sites in 1983 and about 160 observations made over 29 sites in 1984. Each set of reflectance values for a site is actually the mean of observations taken over a given time interval and generally average between 16 and 20 separate measurements. The summarized MMR data for both years, 1983 and 1984, are included in this data set. Fields include site ID number, number of observations averaged, code for altitude of instrument above the canopy (in hundreds of feet), the time (GMT) at which observations begin, the time at which observations end (each a six digit number, the first two correspond to hours, the second and third two corresponding to minutes and seconds, respectively), sun zenith angle, sun azimuth angle, and reflectance for each of the bands (with standard deviations included within parenthesis). Values of -1.0 signify missing data. All measurements were taken at nadir, except where otherwise indicated. In 1984, MMR data were collected using off nadir view angles to measure the bi-directional reflectance characteristics of the forests. Related Data Sets: Not available. 2. Investigator(s): Investigator(s) Name and Title: Dr. Forrest G. Hall NASA Goddard Space Flight Center Dr. K. Fred Huemmrich NASA Goddard Space Flight Center Dr. Donald E. Strebel Versar, Inc. Dr. Scott J. Goetz University of Maryland Ms. Jaime E. Nickeson NASA Goddard Space Flight Center Dr. Kerry D. Woods Bennington College Dr. Celeste Jarvis NASA Headquarters Title of Investigation: Biophysical, Morphological, Canopy Optical Property, and Productivity Data on the Superior National Forest. Contact Information: Dr. Forrest G. Hall NASA Goddard Space Flight Center Code 923 Greenbelt, Maryland 20771 USA Fax +1 (301) 286-0239 Telephone +1 (301) 286-2974 Email: fghall@ltpmail.gsfc.nasa.gov 3. Theory of Measurements: Not available. 4. Equipment: Sensor/Instrument Description: Collection Environment: Airborne. Source/Platform: Field Investigation. Source/Platform Mission Objectives: Not available. Key Variables: Canopy reflectance, bi-directional reflectance, NDVI. Principles of Operation: Not available. Sensor/Instrument Measurement Geometry: All measurements were taken at nadir, except where otherwise indicated. In 1984, MMR data were collected using off nadir view angles to measure the bi-directional reflectance characteristics of the forests. Manufacturer of Sensor/Instrument: Not available. Calibration: Not available. 5. Data Acquisition Methods: Not available. 6. Observations: Data/Field Notes: Not available. 7. Data Description: Spatial Characteristics: There are approximately 317 observations made over 105 different sites in 1983 and about 160 observations made over 29 sites in 1984. Each set of reflectance values for a site is actually the mean of observations taken over a given time interval and generally average between 16 and 20 separate measurements. Temporal Characteristics: Temporal Coverage: MMR data were collected on ten dates in 1983 and eight dates in 1984. Temporal Coverage Map: Not available. Temporal Resolution: The acquisition dates in 1983 were: May 5th and 16th, June 9th, July 12th and 13th, August 12th and 14th, and October 6th, 26th and 27th. The 1984 acquisition dates were: May 18th and 28th, June 3rd, August 2nd, 3rd and 16th, and September 16th and 23rd. Data Characteristics: __________________________________________________________________________ Variable Name/ Long Name SAS Type Generic Type Description __________________________________________________________________________ 1 site_id SITE_ID 8 NUMBER(4,0) "Site ID" __________________________________________________________________________ 2 obs_datc OBS_ DATE $ 12 DATE "Obs. date (dd-mmm-yy)" __________________________________________________________________________ 3 st_gmt START_GMT $ 8 NUMBER(4,0) "Start time, GMT (hhmm)" __________________________________________________________________________ 4 end_gmt END_GMT $ 8 NUMBER(4,0) "End time, GMT (hhmm)" __________________________________________________________________________ 5 height HEIGHT 8 NUMBER(5,0) "Altitude of helicopter above ground level, in hundreds of feet (0=100 feet, 2=200 feet, 3=300 feet)" __________________________________________________________________________ 6 sze SOLAR_ZEN 8 NUMBER(5,2) "Average solar zenith angle in decimal degrees relative to the observer" __________________________________________________________________________ 7 saz SOLAR_AZM 8 NUMBER(5,2) "Average solar azimuth angle in decimal degrees relative to the observer" __________________________________________________________________________ 8 vze VIEW_ZEN 8 NUMBER(5,2) "View zenith angle in decimal degrees relative to the observer" __________________________________________________________________________ 9 vaz VIEW_AZM 8 NUMBER(5,2) "View azimuth angle in decimal degrees relative to the observer" __________________________________________________________________________ 10 refl1 REFL1 8 NUMBER(5,4) "Average percent reflectance in MMR channel 1" __________________________________________________________________________ 11 sd1 SD1 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 1" __________________________________________________________________________ 12 refl2 REFL2 8 NUMBER(5,4) "Average percent reflectance in MMR channel 2" __________________________________________________________________________ 13 sd2 SD2 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 2" __________________________________________________________________________ 14 refl3 REFL3 8 NUMBER(5,4) "Average percent reflectance in MMR channel 3" __________________________________________________________________________ 15 sd3 SD3 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 3" __________________________________________________________________________ 16 refl4 REFL4 8 NUMBER(5,4) "Average percent reflectance in MMR channel 4" __________________________________________________________________________ 17 sd4 SD4 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 4" __________________________________________________________________________ 18 refl5 REFL5 8 NUMBER(5,4) "Average percent reflectance in MMR channel 5" __________________________________________________________________________ 19 sd5 SD5 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 5" __________________________________________________________________________ 20 refl6 REFL6 8 NUMBER(5,4) "Average percent reflectance in MMR channel 6" __________________________________________________________________________ 21 sd6 SD6 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 6" __________________________________________________________________________ 22 refl7 REFL7 8 NUMBER(5,4) "Average percent reflectance in MMR channel 7" __________________________________________________________________________ 23 sd7 SD7 8 NUMBER(5,4) "Standard deviation of reflectance in MMR channel 7" __________________________________________________________________________ 24 num_obs NUM OBS 8 NUMBER(4,0) "Number of observations acquired by the helicopter MMR to arrive at the average reflectance value" __________________________________________________________________________ Sample Data Record: site_id obs_datc st_gmt end_gmt height sze saz vze vaz refl1 sd1 refl2 sd2 refl3 sd3 refl4 sd4 refl5 __________________________________________________________________________ 1 "15-MAY-83" "1936" "1937" 1 35 220.5 0 0 0 0 0.0307 0.0008 0.0265 0.0015 0.1721 0.0102 0.1837 2 "15-MAY-83" "1942" "1944" 1 35.5 222.5 0 0 0 0 0.0252 0.0007 0.0187 0.0005 0.1108 0.0026 0.1356 14 "15-MAY-83" "1945" "1946" 1 36 223.31 0 0 0 0 0.0263 0.0008 0.0194 0.0007 0.1137 0.0017 0.1384 15 "15-MAY-83" "1949" "1950" 2 36 225 0 0 0 0 0.0266 0.0004 0.0197 0.0003 0.1189 0.0016 0.1409 15 "15-MAY-83" "1951" "1951" 3 36 225 0 0 0 0 0.0253 0.0006 0.0185 0.0005 0.1114 0.0012 0.1329 15 "15-MAY-83" "1952" "1953" 4 37 226 0 0 0 0 0.0246 0.0007 0.0179 0.0005 0.1098 0.003 0.1296 23 "15-MAY-83" "1955" "1955" 1 37 227 0 0 0 0 0.0057 0.0003 0.0048 0.0002 0.003 0.0003 0.0016 3 "15-MAY-83" "2000" "2000" 3 38 229 0 0 0 0 0.0563 0.0022 0.064 0.0026 0.1586 0.0067 0.2445 16 "15-MAY-83" "2005" "2005" 1 38 230 0 0 0 0 0.0482 0.0009 0.0517 0.0017 0.1433 0.0023 0.2121 3 "15-MAY-83" "2008" "2008" 2 39 231 0 0 0 0 0.059 0.0009 0.0664 0.0009 0.1686 0.0023 0.2538 3 "15-MAY-83" "2009" "2010" 4 39 231.44 0 0 0 0 0.0558 0.0013 0.0643 0.0018 0.153 0.0029 0.24 4 "15-MAY-83" "2015" "2016" 1 40 233.25 0 0 0 0 0.0315 0.0018 0.0251 0.0023 0.1937 0.0048 0.192 6 "15-MAY-83" "2021" "2022" 1 40 235 0 0 0 0 0.0625 0.0024 0.0802 0.003 0.1424 0.0023 0.2508 17 "15-MAY-83" "2027" "2028" 1 41 237 0 0 0 0 0.0566 0.0017 0.0697 0.0018 0.1476 0.0032 0.2587 5 "15-MAY-83" "2031" "2031" 1 42 238 0 0 0 0 0.0462 0.0018 0.0514 0.003 0.1454 0.0028 0.2264 24 "15-MAY-83" "2034" "2034" 1 42 239 0 0 0 0 0.0062 0.0001 0.0039 0.0001 0.002 0.0001 0.001 26 "15-MAY-83" "2119" "2119" 1 49 250 0 0 0 0 0.0076 0.0003 0.0047 0.0003 0.0023 0.0003 0.0011 13 "15-MAY-83" "2123" "2124" 1 50 251.75 0 0 0 0 0.0247 0.0011 0.0201 0.0008 0.1474 0.0071 0.1583 12 "15-MAY-83" "2130" "2130" 1 51 253 0 0 0 0 0.0414 0.0022 0.0458 0.0036 0.1474 0.0057 0.1939 __________________________________________________________________________ Footnote: For presentation in this document, some padding blanks may have been eliminated between columns in the Sample Data Record. Due to the many fields in this data file, these columns will wrap while viewing. The actual data files, however, are column delimited with an adequate record length to prevent wrapping. See the Data Format Section for conventions used for missing data values in the data file. 8. Data Organization: Data are sorted by observation date (obs_datc) and start time (st_gmt). Key fields in each record are site_id and obs_datc. Data Granularity: This data set consists of a single ASCII file containing canopy reflectance measurements for 1983 and 1984. A general description of data granularity as it applies to the IMS appears in the EOSDIS Glossary. Data Format: The data files associated with this data set consist of numeric and character fields of varying lengths aligned in columns. The first row of each data file contains the 8 character SAS variable name that links to the data format definition file. Character fields are enclosed in double quotes and numeric fields are listed without quotes. Missing data values can be of two varieties: 1. Values that were identified as missing in the original data files. Missing numeric values of this type are identified in these data as -999. 2. Those holes that were created as a result of combining files that contained a slightly different variable set. Missing values of this type are identified in these data files as empty double quotes for character fields and a single period, '.' for numeric fields. 9. Data Manipulations: Not available. 10. Errors: Sources of Error: Not available. Quality Assessment: Data Validation by Source: Not available. Confidence Level/Accuracy Judgment: Not available. Measurement Error for Parameters: Not available. Additional Quality Assessments: Not available. Data Verification by Data Center: The Superior National Forest data was received from the Goddard Space Flight Center in three media: * As data dumps from the original Oracle SNF database maintained by GSFC, transferred electronically from the GSFC system to the ORNL system; * As ASCII files that mirrored the tables published in the Tech Memo; and * As hard copy (Tech Memo). Data from both electronic sources were input into SAS by ORNL DAAC data management staff and compared using computer code developed to process the SNF data. In many cases, the data values from both sources were found to be identical. In some cases, however, differences were identified and the providers of the data were consulted to resolve inconsistencies. Additionally, some variable columns were available in one source, but not the other for various reasons. For example, some calculated variables/columns were provided in the ASCII files (reflecting the Tech Memo tables) that were not stored in the Oracle database for purposes of space conservation. For similar reasons, coded values were used for many of the site and species identifier variables. A separate reference table was provided to link the coded variable with its definition, e.g., the SPECIES_REF file and the SITE_REF file. The database produced by the ORNL DAAC is a hybrid product that is a composite of data and information extracted from all three source media. In data sets where coded variables were included, the code definition variables have been added to improve usability of the data set as a stand-alone product. Therefore the ASCII files that are available through the ORNL DAAC on-line search and order systems are output from a data set that is a product of the essential core of numeric data provided by the data source (GSFC), augmented with additional descriptive information provided by GSFC and reorganized by the ORNL DAAC into a data structure consistent with other similar data sets maintained by the ORNL DAAC. 11. Notes: Limitations of the Data: Not available. Known Problems with the Data: None known at this revision. Usage Guidance: Not available. Any Other Relevant Information about the Study: None. 12. Application of the Data Set: Not available. 13. Future Modifications and Plans: None available at this revision. 14. Software: Not available. 15. Data Access: Contact Information: ORNL DAAC User Services P.O. Box 2008 Mail Stop 6407 Oak Ridge National Laboratory Oak Ridge, TN 37831-6407 Telephone: (423) 241-3952 FAX: (423) 574-4665 Email: ornldaac@ornl.gov Data Center Identification: EOSDIS Distributed Active Archive Center P.O. Box 2008 Mail Stop 6407 Oak Ridge National Laboratory Oak Ridge, TN 37831-6407 USA Telephone: (423) 241-3952 FAX: (423) 574-4665 Email: ornldaac@ornl.gov Procedures for Obtaining Data: Users may place requests by letter, telephone, electronic mail, FAX, or personal visit. Data is also available via the World Wide Web at http://www-eosdis.ornl.gov. Data Center Status/Plans: The Superior National Forest Data is available from the ORNL DAAC. Please contact the ORNL DAAC User Services Office for the most current information about these data. 16. Output Products and Availability: Available online, as a computer FTP file (zipped or unzipped), on tape or IBM-formatted diskettes. 17. References: Not available. Archive/DBMS Usage Documentation. Contact the EOS Distributed Active Archive Center (DAAC) at Oak Ridge National Laboratory (ORNL), Oak Ridge, Tennessee (see the Data Center Identification Section). Documentation about using the archive and/or online access to the data at the ORNL DAAC is not available at this revision. 18. Glossary of Terms: A general glossary for the DAAC is located at EOSDIS Glossary. 19. List of Acronyms: MMR Multiband radiometer NDVI Normalized Difference Vegetation Index URL Uniform Resource Locator A general list of acronyms for the DAAC is available at http://cdiac.esd.ornl.gov/cdiac/pns/acronyms.html. 20. Document Information: Document Revision Date: October 17, 1996 Document Review Date: January 21, 1997. Document ID: ORNL-SNF_ HELO_MMR. Citation: Please cite the following NASA Technical Memorandum 104568 in any work or any publication using these data: Hall, F.G., K.F. Huemmrich, D.E. Strebel, S.J. Goetz, J.E. Nickeson, and K.D. Woods, July 1992. Biophysical, Morphological, Canopy Optical Property, and Productivity Data From the Superior National Forest. NASA Technical Memorandum 104568. National Aeronautics and Space Administration, Washington, D.C. 20546. Document Curator: Donna O. Lambert dlambert@daacs.esd.ornl.gov Document Author: Merilyn J. Gentry mjg@walden.rmt.utk.edu Document URL: http://www-eosdis.ornl.gov /SNF/guides/helicopter_mmr_reflect.html _________________________________________________________________ SNF Home Page | Oak Ridge DAAC Home Page | ORNL Home Page ORNL DAAC User Services Office: 423-241-3952; email ornldaac@ornl.gov Web Document Curator: Sarah Jennings, xqj@ornl.gov Document Editor: Donna Lambert Revision Date: September 24, 1997 URL: http://www-eosdis.ornl.gov /SNF/guides/helicopter_mmr_reflect.html