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5. Characteristics of the atmospheric CO2 signal as observed over the conterminous United States during INTEX-NA

Author

Choi, Y, Vay, SA, Vadrevu, KP, Soja, AJ, Woo, JH, Nolf, SR, Sachse, GW, Diskin, GS, Blake, DR, Blake, NJ, Singh, HB, Avery, MA, Fried, A, Pfister, L, and Fuelberg, HE

Subjects
Meteorology & Atmospheric Sciences
Abstract

High resolution in situ measurements of atmospheric CO2 were made from the NASA DC-8 aircraft during the Intercontinental Chemical Transport Experiment - North America (INTEX-NA) campaign, part of the wider International Consortium for Atmospheric Research on Transport and Transformation (ICARTT). During the summer of 2004, eighteen flights comprising 160h of measurements were conducted within a region bounded by 27 to 53°N and 36 to 139°W over an altitude range of 0.15 to 12 km. These large-scale surveys provided the opportunity to examine the characteristics of the atmospheric CO2 signal over sparsely sampled areas of North America and adjacent ocean basins. The observations showed a high degree of variability (≤ 18%) due to the myriad source and sink processes influencing the air masses intercepted over the INTEX-NA sampling domain. Surface fluxes had strong effects on continental scale concentration gradients. Clear signatures of CO2 uptake were seen east of the Mississippi River, notably a persistent CO2 deficit in the lowest 2-3 km. When combining the airborne CO2 measurements with LANDSAT and MODIS data products, the lowest CO2 mixing ratios observed during the campaign (337 ppm) were tied to mid-continental agricultural fields planted in corn and soybeans. We used simultaneous measurements of CO, O3, C2Cl4, C2H6, C2H2 and other unique chemical tracers to differentiate air mass types. Coupling these distinct air mass chemical signatures with transport history permitted identification of convection, stratosphere-troposphere exchange, long-range transport from Eastern Asia, boreal wildfires, and continental outflow as competing processes at multiple scales influencing the observed concentrations. Our results suggest these are important factors contributing to the large-scale distribution in CO2 Mixing ratios thus these observations offer new constraints in the computation of the North American carbon budget. Copyright 2008 by the American Geophysical Union.

Published
2008

6. HOx chemistry during INTEX-A 2004: Observation, model calculation, and comparison with previous studies

Author

Ren, X, Olson, JR, Crawford, JH, Brune, WH, Mao, J, Long, RB, Chen, Z, Chen, G, Avery, MA, Sachse, GW, Barrick, JD, Diskin, GS, Huey, LG, Fried, A, Cohen, RC, Heikes, B, Wennberg, PO, Singh, HB, Blake, DR, and Shetter, RE

Subjects
Meteorology & Atmospheric Sciences
Abstract

OH and HO2 were measured with the Airborne Tropospheric Hydrogen Oxides Sensor (ATHOS) as part of a large measurement suite from the NASA DC-8 aircraft during the Intercontinental Chemical Transport Experiment-A (INTEX-A). This mission, which was conducted mainly over North America and the western Atlantic Ocean in summer 2004, was an excellent test of atmospheric oxidation chemistry. The HOx results from INTEX-A are compared to those from previous campaigns and to results for other related measurements from. INTEX-A. Throughout the troposphere, observed OH was generally 0.95 of modeled OH; below 8 km, observed HO2 was generally 1.20 of modeled HO2. This observed-to-modeled comparison is similar to that for TRACE-P, another midlatitude study for which the median observed-to-modeled ratio was 1.08 for OH and 1.34 for HO2, and to that for PEM-TB, a tropical study for which the median observed-to-modeled ratio was 1.17 for OH and 0.97 for HO2. HO2 behavior above 8 km was markedly different. The observed-to-modeled HO2 ratio increased from ∼1.2 at 8 km to ∼3 at 11 km with the observed-to-modeled ratio correlating with NO. Above 8 km, the observed-to-modeled HO2 and observed NO were both considerably greater than observations from previous campaigns. In addition, the observed-to-modeled HO2/OH, which is sensitive to cycling reactions between OH and HO2, increased from ∼1.5 at 8 km to almost 3.5 at 11 km. These discrepancies suggest a large unknown HOx source and additional reactants that cycle HOx from OH to HO2. In the continental planetary boundary layer, the observed-to-modeled OH ratio increased from 1 when isoprene was less than 0.1 ppbv to over 4 when isoprene was greater than 2 ppbv, suggesting that forests throughout the United States are emitting unknown HOx sources. Progress in resolving these discrepancies requires a focused research activity devoted to further examination of possible unknown OH sinks and HOx sources. Copyright 2008 by the American Geophysical Union.

Published
2008

7. Airborne measurements of HCl from the marine boundary layer to the lower stratosphere over the North Pacific Ocean during INTEX-B

Author

Kim, S, Huey, LG, Stickel, RE, Pierce, RB, Chen, G, Avery, MA, Dibb, JE, Diskin, GS, Sachse, GW, McNaughton, CS, Clarke, AD, Anderson, BE, and Blake, DR

Abstract

Abstract. Gas phase HCl was measured from the marine boundary layer (MBL) to the lower stratosphere from the NASA DC-8 during five science flights (41 h) of the Intercontinental Chemical Transport Experiment-Phase B (INTEX-B) field campaign. In the upper troposphere/lower stratosphere (UT/LS, 8–12 km) HCl was observed to range from a few tens to 100 pptv due to stratospheric influence with a background tropospheric level of less than 2 pptv. In the 8–12 km altitude range, a simple analysis of the O3/HCl correlation shows that pure stratospheric and mixed tropospheric/stratospheric air masses were encountered 30% and 15% of the time, respectively. In the mid troposphere (4–8 km) HCl levels were usually below 2 pptv except for a few cases of stratospheric influence and were much lower than reported in previous work. These data indicate that background levels of HCl in the mid and upper troposphere are very low and confirm its use in these regions as a tracer of stratospheric ozone. However, a case study suggests that HCl may be produced in the mid troposphere by the dechlorination of dust aerosols. In the remote marine boundary layer HCl levels were consistently above 20 pptv (up to 140 pptv) and strongly correlated with HNO3. Cl atom levels were estimated from the background level of HCl in the MBL. This analysis suggests a Cl concentration of ~3×103 atoms cm−3, which corresponds to the lower range of previous studies. Finally, the observed HCl levels are compared to predictions by the Real-time Air Quality Modeling System (RAQMS) to assess its ability to characterize the impact of stratospheric transport on the upper troposphere.

Published
2008

8. Summertime influence of Asian pollution in the free troposphere over North America

Author

Liang, Q, Jaeglé, L, Hudman, RC, Turquety, S, Jacob, DJ, Avery, MA, Browell, EV, Sachse, GW, Blake, DR, Brune, W, Ren, X, Cohen, RC, Dibb, JE, Fried, A, Fuelberg, HE, Porter, MJ, Heikes, BG, Huey, G, Singh, HB, and Wennberg, PO

Subjects
Meteorology & Atmospheric Sciences
Abstract

We analyze aircraft observations obtained during INTEX-A (1 July to 14 August 2004) to examine the summertime influence of Asian pollution in the free troposphere over North America. By applying correlation analysis and principal component analysis (PCA) to the observations between 6 and 12 km, we find dominant influences from recent convection and lightning (13% of observations), Asia (7%), the lower stratosphere (7%), and boreal forest fires (2%), with the remaining 71 % assigned to background. Asian air masses are marked by high levels of CO, O3, HCN, PAN, C2H2, C6H6. methanol, and SO42-. The partitioning of NOy species in the Asian plumes is dominated by PAN (∼600 pptv), with varying NOx/HNO3 ratios in individual plumes, consistent with individual transit times of 3-9 days. Export of Asian pollution occurred in warm conveyor belts of midlatitude cyclones, deep convection, and in typhoons. Compared to Asian outflow measurements during spring, INTEX-A observations display lower levels of anthropogenic pollutants (CO, C3H8, C2H6, C6H6) due to shorter summer lifetimes; higher levels of biogenic tracers (methanol and acetone) because of a more active biosphere; and higher levels of PAN, NOx, HNO3, and O3 reflecting active photochemistry, possibly enhanced by efficient NOy export and lightning. The high DO3/ΔCO ratio (0.76 mol/mol) in Asian plumes during INTEX-A is due to strong photochemical production and, in some cases, mixing with stratospheric air along isentropic surfaces. The GEOS-Chem global model captures the timing and location of the Asian plumes. However, it significantly underestimates the magnitude of observed enhancements in CO, O3, PAN and NOx. Copyright 2007 by the American Geophysical Union.

Published
2007

9. Processes influencing ozone levels in Alaskan forest fire plumes during long-range transport over the North Atlantic

Author

Real, E, Law, KS, Weinzierl, B, Fiebig, M, Petzold, A, Wild, O, Methven, J, Arnold, SA, Stohl, A, Huntrieser, H, Roiger, AE, Schlager, H, Stewart, D, Avery, MA, Sachse, GW, Browell, EV, Ferrare, RA, and Blake, D

Subjects
Meteorology & Atmospheric Sciences
Abstract

A case of long-range transport of a biomass burning plume from Alaska to Europe is analyzed using a Lagrangian approach. This plume was sampled several times in the free troposphere over North America, the North Atlantic and Europe by three different aircraft during the IGAC Lagrangian 2K4 experiment which was part of the ICARTT/ITOP measurement intensive in summer 2004. Measurements in the plume showed enhanced values of CO, VOCs and NOy, mainly in form of PAN. Observed O3 levels increased by 17 ppbv over 5 days. A photochemical trajectory model, CiTTyCAT, was used to examine processes responsible for the chemical evolution of the plume. The model was initialized with upwind data and compared with downwind measurements. The influence of high aerosol loading on photolysis rates in the plume was investigated using in situ aerosol measurements in the plume and lidar retrievals of optical depth as input into a photolysis code (Fast-J), run in the model. Significant impacts on photochemistry are found with a decrease of 18% in O3 production and 24% in O3 destruction over 5 days when including aerosols. The plume is found to be chemically active with large O3 increases attributed primarily to PAN decomposition during descent of the plume toward Europe. The predicted O3 changes are very dependent on temperature changes during transport and also on water vapor levels in the lower troposphere which can lead to O3 destruction. Simulation of mixing/dilution was necessary to reproduce observed pollutant levels in the plume. Mixing was simulated using background concentrations from measurements in air masses in close proximity to the plume, and mixing timescales (averaging 6.25 days) were derived from CO changes. Observed and simulated O3/CO correlations in the plume were also compared in order to evaluate the photochemistry in the model. Observed slopes change from negative to positive over 5 days. This change, which can be attributed largely to photochemistry, is well reproduced by multiple model runs even if slope values are slightly underestimated suggesting a small underestimation in modeled photochemical O3 production. The possible impact of this biomass burning plume on O3 levels in the European boundary layer was also examined by running the model for a further 5 days and comparing with data collected at surface sites, such as Jungfraujoch, which showed small O3 increases and elevated CO levels. The model predicts significant changes in O3 over the entire 10 day period due to photochemistry but the signal is largely lost because of the effects of dilution. However, measurements in several other BB plumes over Europe show that O3 impact of Alaskan fires can be potentially significant over Europe. Copyright 2007 by the American Geophysical Union.

Published
2007

10. Impacts of biomass burning in Southeast Asia on ozone and reactive nitrogen over the western Pacific in spring

Author

Kondo, Y, Morino, Y, Takegawa, N, Koike, M, Kita, K, Miyazaki, Y, Sachse, GW, Vay, SA, Avery, MA, Flocke, F, Weinheimer, AJ, Eisele, FL, Zondlo, MA, Weber, RJ, Singh, HB, Chen, G, Crawford, J, Blake, DR, Fuelberg, HE, Clarke, AD, Talbot, RW, Sandholm, ST, Browell, EV, Streets, DG, and Liley, B

Subjects
biomass burning, ozone, NOy, Meteorology & Atmospheric Sciences
Abstract

Aircraft measurements of ozone (O3) and its precursors (reactive nitrogen, CO, nonmethane hydrocarbons) were made over the western Pacific during the Transport and Chemical Evolution Over the Pacific (TRACE-P) campaign, which was conducted during February-April 2001. Biomass burning activity was high over Southeast Asia (SEA) during this period (dry season), and convective activity over SEA frequently transported air from the boundary layer to the free troposphere, followed by eastward transport to the sampling region over the western Pacific south of 30°N. This data set allows for systematic investigations of the chemical and physical processes in the outflow from SEA. Methyl chloride (CH3Cl) and CO are chosen as primary and secondary tracers, respectively, to gauge the degree of the impact of emissions of trace species from biomass burning. Biomass burning is found to be a major source of reactive nitrogen (NO x, PAN, HNO3, and nitrate) and O3 in this region from correlations of these species with the tracers. Changes in the abundance of reactive nitrogen during upward transport are quantified from the altitude change of the slopes of the correlations of these species with CO. NOx decreased with altitude due to its oxidation to HNO3. On the other hand, PAN was conserved during transport from the lower to the middle troposphere, consistent with its low water solubility and chemical stability at low temperatures. Large losses of HNO3 and nitrate, which are highly water soluble, occurred in the free troposphere, most likely due to wet removal by precipitation. This has been shown to be the major pathway of NOy loss in the middle troposphere. Increases in the mixing ratios of O3 and its precursors due to biomass burning in SEA are estimated using the tracers. Enhancements of CO and total reactive nitrogen (NOy), which are directly emitted from biomass burning, were largest at 2-4 km. At this altitude the increases in NOy and O3 were 810 parts per trillion by volume (pptv) and 26 parts per billion by volume (ppbv) above their background values of 240 pptv and 31 ppbv, respectively. The slope of the O3-CO correlation in biomass burning plumes was similar to those observed in fire plumes in northern Australia, Africa, and Canada. The O3 production efficiency (OPE) derived from the O3-CO slope and NOx/CO emission ratio (ER) is shown to be positively correlated with the C2H4 /NOx ER, indicating that the C2H4/NO x ER is a critical parameter in determining the OPE. Comparison of the net O3 flux across the western Pacific region and total O3 production due to biomass burning in SEA suggests that about 70% of O3 produced was transported to the western Pacific. Copyright 2004 by the American Geophysical Union.

Published
2004

11. Analysis of the atmospheric distribution, sources, and sinks of oxygenated volatile organic chemicals based on measurements over the Pacific during TRACE-P

Author

Singh, HB, Salas, LJ, Chatfield, RB, Czech, E, Fried, A, Walega, J, Evans, MJ, Field, BD, Jacob, DJ, Blake, D, Heikes, B, Talbot, R, Sachse, G, Crawford, JH, Avery, MA, Sandholm, S, and Fuelberg, H

Subjects
oxygenated organics, PANs, acetone, Meteorology & Atmospheric Sciences
Abstract

Airborne measurements of a large number of oxygenated volatile organic chemicals (OVOC) were carried out in the Pacific troposphere (0.1 - 12 km) in winter/spring of 2001 (24 February to 10 April). Specifically, these measurements included acetone (CH3COCHA3), methylethyl ketone (CH3COC2H5, MEK), methanol (CH3OH), ethanol (C2H5OH), acetaldehyde (CH3CHO), propionaldehyde C2H 5CHO), peroxyacylnitrates (PANs) (CnH 2n+1COO2NO2), and organic nitrates (CnH2n+1ONO2). Complementary measurements of formaldehyde (HCHO), methyl hydroperoxide (CH 3OOH), and selected tracers were also available. OVOC were abundant in the clean troposphere and were greatly enhanced in the outflow regions from Asia. Background mixing ratios were typically highest in the lower troposphere and declined toward the upper troposphere and the lowermost stratosphere. Their total abundance (ΣOVOC) was nearly twice that of nonmethane hydrocarbons (Σ C2-C8 NMHC. Throughout the troposphere, the OH reactivity of OVOC is comparable to that of methane and far exceeds that of NMHC. A comparison of these data with western Pacific observations collected some 7 years earlier (February-March 1994) did not reveal significant differences. Mixing ratios of OVOC were strongly correlated with each other as well as with tracers of fossil and biomass/biofuel combustion. Analysis of the relative enhancement of selected OVOC with respect to CH 3Cl and CO in 12 plumes originating from fires and sampled in the free troposphere (3-11 km) is used to assess their primary and secondary emissions from biomass combustion. The composition of these plumes also indicates a large shift of reactive nitrogen into the PAN reservoir thereby limiting ozone formation. A three-dimensional global model that uses state of the art chemistry and source information is used to compare measured and simulated mixing ratios of selected OVOC. While there is reasonable agreement in many cases, measured aldehyde concentrations are significantly larger than predicted. At their observed levels, acetaldehyde mixing ratios are shown to be an important source of HCHO (and HOx) and PAN in the troposphere. On the basis of presently known chemistry, measured mixing ratios of aldehydes and PANs are mutually incompatible. We provide rough estimates of the global sources of several OVOC and conclude that collectively these are extremely large (150-500 Tg C yr-1) but remain poorly quantified. Copyright 2004 by the American Geophysical Union.

Published
2004

12. Testing fast photochemical theory during TRACE-P based on measurements of OH, HO2 and CH2O

Author

Olson, JR, Crawford, JH, Chen, G, Fried, A, Evans, MJ, Jordan, CE, Sandholm, ST, Davis, DD, Anderson, BE, Avery, MA, Barrick, JD, Blake, DR, Brune, WH, Eisele, FL, Flocke, F, Harder, H, Jacob, DJ, Kondo, Y, Lefer, BL, Martinez, M, Mauldin, RL, Sachse, GW, Shetter, RE, Singh, HB, Talbot, RW, and Tan, D

Subjects
TRACE-P, photochemistry, tropospheric chemistry, Meteorology & Atmospheric Sciences
Abstract

Measurements of several short-lived photochemical species (e.g., OH, HO2, and CH2O) were obtained from the DC-8 and P3-B aircraft during the NASA Transport and Chemical Evolution over the Pacific (TRACE-P) campaign. To assess fast photochemical theory over the east Asian coast and western Pacific, these measurements are compared to predictions using a photochemical time-dependent box model constrained by coincident measurements of long-lived tracers and physical parameters. Both OH and HO2 are generally overpredicted by the model throughout the troposphere, which is a different result from previous field campaigns. The calculated-to-observed ratio of OH shows an altitude trend, with OH overpredicted by 80% in the upper troposphere and by 40-60% in the middle troposphere. Boundary layer and lower tropospheric OH ratios decrease from middle tropospheric values to 1.07 for the DC-8 and to 0.70 for the P3-B. HO2 measured on the DC-8 is overpredicted by a median of 23% and shows no trend in the agreement with altitude. Three subsets of data which compose 12% of the HO2 measurements represent outliers with respect to calculated-to-observed ratios: stratospherically influenced air, upper tropospheric data with NO > 135 pptv, and data from within clouds. Pronounced underpredictions of both HO2 and OH were found for stratospherically influenced air, which is in contrast to previous studies showing good agreement of predicted and observed HOx, in the stratosphere. Observational evidence of heterogeneous uptake of HO2 within low and middle tropospheric clouds is presented, though there is no indication of significant HO2 uptake within higher-altitude clouds. Model predictions of CH2O are in good agreement with observations in the median for background concentrations, but a large scatter exists. Factors contributing to this scatter are examined, including the limited availability of some important constraining measurements, particularly CH3OOH. Some high concentrations of CH2O near the coast are underpredicted by the box model as a result of the inherent neglect of transport effects of CH2O and its precursors via the steady state assumption; however, these occurrences are limited to ∼1% of the data. For the vast majority of the atmosphere, transport is unimportant in the budget of CH2O, which may be considered to be in steady state. Copyright 2004 by the American Geophysical Union.

Published
2004

13. Carbonyl sulfide and carbon disulfide: Large-scale distributions over the western Pacific and emissions from Asia during TRACE-P

Author

Blake, NJ, Streets, DG, Woo, JH, Simpson, IJ, Green, J, Meinardi, S, Kita, K, Atlas, E, Fuelberg, HE, Sachse, G, Avery, MA, Vay, SA, Talbot, RW, Dibb, JE, Bandy, AR, Thornton, DC, Rowland, FS, and Blake, DR

Subjects
carbonyl sulfide, carbon disulfide, Asian emissions, emission inventories, Meteorology & Atmospheric Sciences
Abstract

An extensive set of carbonyl sulfide (OCS) and carbon disulfide (CS 2) observations were made as part of the NASA Transport and Chemical Evolution over the Pacific (TRACE-P) project, which took place in the early spring 2001. TRACE-P sampling focused on the western Pacific region but in total included the geographic region 110°E to 290°E longitude, 5°N to 50°N latitude, and 0-12 km altitude. Substantial OCS and CS2 enhancements were observed for a great many air masses of Chinese and Japanese origin during TRACE-P. Over the western Pacific, mean mixing ratios of long-lived OCS and shorter-lived CS2 showed a gradual decrease by about 10% and a factor of 5-10, respectively, from the surface to 8-10 km altitude, presumably because land-based sources dominated their distribution during February through April 2001. The highest mean OCS and CS 2 levels (580 and 20 pptv, respectively, based on 2.5° × 2.5° latitude bins) were observed below 2 km near the coast of Asia, at latitudes between 25°N and 35°N, where urban Asian outflow was strongest. Ratios of OCS versus CO for continental SE Asia were much lower compared to Chinese and Japanese signatures and were strongly associated with biomass burning/biofuel emissions. We present a new inventory of anthropogenic Asian emissions (including biomass burning) for OCS and CS2 and compare it to emission estimates based on regional relationships of OCS and CS 2 to CO and CO2. The OCS and CS2 results for the two methods compare well for continental SE Asia and Japan plus Korea and also for Chinese CS2 emissions. However, it appears that the inventory underestimates Chinese emissions of OCS by about 30-100%. This difference may be related to the fact that we did not include natural sources such as wetland emissions in our inventory, although the contributions from such sources are believed to be at a seasonal low during the study period. Uncertainties in OCS emissions from Chinese coal burning, which are poorly characterized, likely contribute to the discrepancy. Copyright 2004 by the American Geophysical Union.

Published
2004

14. Asian outflow and trans-Pacific transport of carbon monoxide and ozone pollution: An integrated satellite, aircraft, and model perspective

Author

Heald, CL, Jacob, DJ, Fiore, AM, Emmons, LK, Gille, JC, Deeter, MN, Warner, J, Edwards, DP, Crawford, JH, Hamlin, AJ, Sachse, GW, Browell, EV, Avery, MA, Vay, SA, Westberg, DJ, Blake, DR, Singh, HB, Sandholm, ST, Talbot, RW, and Fuelberg, HE

Subjects
TRACE-P, MOPITT, Asian pollution, trans-Pacific transport, carbon monoxide, O-3 production, Meteorology & Atmospheric Sciences
Published
2003

15. Evaluating regional emission estimates using the TRACE‐P observations

Author

Carmichael, GR, Tang, Y, Kurata, G, Uno, I, Streets, DG, Thongboonchoo, N, Woo, J‐H, Guttikunda, S, White, A, Wang, T, Blake, DR, Atlas, E, Fried, A, Potter, B, Avery, MA, Sachse, GW, Sandholm, ST, Kondo, Y, Talbot, RW, Bandy, A, Thorton, D, and Clarke, AD

Subjects
Climate Action, emission evaluation, chemical transport model, TRACE-P, biomass burning, Meteorology & Atmospheric Sciences
Published
2003

16. An assessment of western North Pacific ozone photochemistry based on springtime observations from NASA's PEM‐West B (1994) and TRACE‐P (2001) field studies

Author

Davis, DD, Chen, G, Crawford, JH, Liu, S, Tan, D, Sandholm, ST, Jing, P, Cunnold, DM, DiNunno, B, Browell, EV, Grant, WB, Fenn, MA, Anderson, BE, Barrick, JD, Sachse, GW, Vay, SA, Hudgins, CH, Avery, MA, Lefer, B, Shetter, RE, Heikes, BG, Blake, DR, Blake, N, Kondo, Y, and Oltmans, S

Subjects
Climate Action, TRACE-P, ozone, Pacific Rim, Meteorology & Atmospheric Sciences
Published
2003

18. Influence of regional-scale anthropogenic emissions on CO2 distributions over the western North Pacific

Author

Vay, SA, Woo, JH, Anderson, BE, Thornhill, KL, Blake, DR, Westberg, DJ, Kiley, CM, Avery, MA, Sachse, GW, Streets, DG, Tsutsumi, Y, and Nolf, SR

Subjects
Meteorology & Atmospheric Sciences
Abstract

We report here airborne measurements of atmospheric CO2 over the western North Pacific during the March-April 2001 Transport and Chemical Evolution over the Pacific (TRACE-P) mission. The CO2 spatial distributions were notably influenced by cyclogenesis-triggered transport of regionally polluted continental air masses. Examination of the CO2 to C2H2/CO ratio indicated rapid outflow of combustion-related emissions in the free troposphere below 8 km. Although the highest CO2 mixing ratios were measured within the Pacific Rim region, enhancements were also observed further east over the open ocean at locations far removed from surface sources. Near the Asian continent, discrete plumes encountered within the planetary boundary layer contained up to 393 ppmv of CO2. Coincident enhancements in the mixing ratios of C2Cl4, C2H2, and C2H4 measured concurrently revealed combustion and industrial sources. To elucidate the source distributions of CO2, an emissions database for Asia was examined in conjunction with the chemistry and 5-day backward trajectories that revealed the WNW/W sector of northeast Asia was a major contributor to these pollution events. Comparisons of NOAA/CMDL and JMA surface data with measurements obtained aloft showed a strong latitudinal gradient that peaked between 35° and 40°N. We estimated a net CO2 flux from the Asian continent of approximately 13.93 Tg C day-1 for late winter/early spring with the majority of the export (79%) occurring in the lower free troposphere (2-8 km). The apportionment of the flux between anthropogenic and biospheric sources was estimated at 6.37 Tg C day-1 and 7.56 Tg C day-1, respectively.

Published
2003

19. Peroxy radical behavior during the Transport and Chemical Evolution over the Pacific (TRACE-P) campaign as measured aboard the NASA P-3B aircraft

Author

Cantrell, CA, Edwards, GD, Stephens, S, Mauldin, RL, Zondlo, MA, Kosciuch, E, Eisele, FL, Shetter, RE, Lefer, BL, Hall, S, Flocke, F, Weinheimer, A, Fried, A, Apel, E, Kondo, Y, Blake, DR, Blake, NJ, Simpson, IJ, Bandy, AR, Thornton, DC, Heikes, BG, Singh, HB, Brune, WH, Harder, H, Martinez, M, Jacob, DJ, Avery, MA, Barrick, JD, Sachse, GW, Olson, JR, Crawford, JH, and Clarke, AD

Subjects
Meteorology & Atmospheric Sciences
Abstract

Peroxy radical concentrations were measured aboard the NASA P-3B aircraft during the Transport and Chemical Evolution over the Pacific (TRACE-P) campaign in the spring of 2001 and varied in ways that depended on radical production rates and reactive nitrogen concentrations. Measurements of HO2, HO2 + RO2, and OH during this study allowed calculation of radical ratios, examination of functional relationships of these ratios on controlling variables, and comparison with numerical model estimations. Radical production terms show changes in relative contributions at low, middle, and high total production rates that are understandable in terms of systematic variations in the controlling components (trace gas concentrations and photolysis rate coefficients). Ozone tendency calculations indicate net ozone production in the western Pacific basin because the concentrations of critical precursor trace gases (e.g., NOx, hydrocarbons) are highest there. The dependence of ozone tendency follows the concentration of NO systematically. Peroxy radical levels on the two aircraft (HO2 + RO2 on the P-3B and HO2 on the DC-8) during two relatively short prescribed intercomparison periods were in good agreement in one instance and poorer in another given reasonable assumptions about the apportioning of radicals between HO2 and RO2. Recommended changes to CH2O photolysis quantum yields, HO2 self reaction, and O(1D) quenching kinetics lead to small changes (

Published
2003

21. Synoptic-scale transport of reactive nitrogen over the western Pacific in spring

Author

Miyazaki, Y, Kondo, Y, Koike, M, Fuelberg, HE, Kiley, CM, Kita, K, Takegawa, N, Sachse, GW, Flocke, F, Weinheimer, AJ, Singh, HB, Eisele, FL, Zondlo, M, Talbot, RW, Sandholm, ST, Avery, MA, and Blake, DR

Subjects
warm conveyor belts, convection, reactive nitrogen, TRACE-P, western Pacific, Meteorology & Atmospheric Sciences
Published
2003

22. Large-scale ozone and aerosol distributions, air mass characteristics, and ozone fluxes over the western Pacific Ocean in late winter/early spring

Author

Browell, EV, Fenn, MA, Butler, CF, Grant, WB, Brackett, VG, Hair, JW, Avery, MA, Newell, RE, Hu, YL, Fuelberg, HE, Jacob, DJ, Anderson, BE, Atlas, EL, Blake, DR, Brune, WH, Dibb, JE, Fried, A, Heikes, BG, Sachse, GW, Sandholm, ST, Singh, HB, Talbot, RW, Vay, SA, Weber, RJ, and Bartlett, KB

Subjects
ozone, aerosols, fluxes, air mass characteristics, western Pacific, TRACE-P, Meteorology & Atmospheric Sciences
Published
2003

25. Sources of upper tropospheric HOx over the South Pacific Convergence Zone: A case study

Author

Mari, C, Saut, C, Jacob, DJ, Ravetta, F, Anderson, B, Avery, MA, Blake, DR, Brune, WH, Faloona, I, Gregory, GL, Heikes, BG, Sachse, GW, Sandholm, ST, Singh, HB, Talbot, RW, Tan, D, and Vay, S

Subjects
HOx, convection, SPCZ, upper troposphere, PEM-TROPICS, Meteorology & Atmospheric Sciences, Atmospheric Sciences, Physical Geography and Environmental Geoscience
Published
2002

26. Seasonal differences in the photochemistry of the South Pacific: A comparison of observations and model results from PEM‐Tropics A and B

Author

Olson, JR, Crawford, JH, Davis, DD, Chen, G, Avery, MA, Barrick, JDW, Sachse, GW, Vay, SA, Sandholm, ST, Tan, D, Brune, WH, Faloona, IC, Heikes, BG, Shetter, RE, Lefer, BL, Singh, HB, Talbot, RW, and Blake, DR

Subjects
Meteorology & Atmospheric Sciences
Abstract

A time-dependent photochemical box model is used to examine the photochemistry of the equatorial and southern subtropical Pacific troposphere with aircraft data obtained during two distinct seasons: the Pacific Exploratory Mission-Tropics A (PEM-Tropics A) field campaign in September and October of 1996 and the Pacific Exploratory Mission-Tropics B (PEM-Tropics B) campaign in March and April of 1999. Model-predicted values were compared to observations for selected species (e.g., NO2, OH, HO2) with generally good agreement. Predicted values of HO2 were larger than those observed in the upper troposphere, in contrast to previous studies which show a general underprediction of HO2 at upper altitudes. Some characteristics of the budgets of HOx, NOx, and peroxides are discussed. The integrated net tendency for O3 is negative over the remote Pacific during both seasons, with gross formation equal to no more than half of the gross destruction. This suggests that a continual supply of O3 into the Pacific region throughout the year must exist in order to maintain O3 levels. Integrated net tendencies for equatorial O3 showed a seasonality, with a net loss of 1.06×1011 molecules cm-2 s-1 during PEM-Tropics B (March) increasing by 50% to 1.60×1011 molecules cm-2 s-1 during PEM-Tropics A (September). The seasonality over the southern subtropical Pacific was somewhat lower, with losses of 1.21×1011 molecules cm-2 s-1 during PEM-Tropics B (March) increasing by 25% to 1.51×1011 molecules cm-2 s-1 during PEM-Tropics A (September). While the larger net losses during PEM-Tropics A were primarily driven by higher concentrations of O3, the ability of the subtropical atmosphere to destroy O3 was ∼30% less effective during the PEM-Tropics A (September) campaign due to a drier atmosphere and higher overhead O3 column amounts. Copyright 2001 by the American Geophysical Union.

Published
2001

27. Large-scale air mass characteristics observed over the remote tropical Pacific Ocean during March-April 1999: Results from PEM-Tropics B field experiment

Author

Browell, EV, Fenn, MA, Butler, CF, Grant, WB, Ismail, S, Ferrare, RA, Kooi, SA, Brackett, VG, Clayton, MB, Avery, MA, Barrick, JDW, Fuelberg, HE, Maloney, JC, Newell, RE, Zhu, Y, Mahoney, MJ, Anderson, BE, Blake, DR, Brune, WH, Heikes, BG, Sachse, GW, Singh, HB, and Talbot, RW

Subjects
Meteorology & Atmospheric Sciences
Abstract

Eighteen long-range flights over the Pacific Ocean between 38° S to 20° N and 166° E to 90° W were made by the NASA DC-8 aircraft during the NASA Pacific Exploratory Mission (PEM) Tropics B conducted from March 6 to April 18, 1999. Two lidar systems were flown on the DC-8 to remotely measure vertical profiles of ozone (O3), water vapor (H2O), aerosols, and clouds from near the surface to the upper troposphere along their flight track. In situ measurements of a wide range of gases and aerosols were made on the DC-8 for comprehensive characterization of the air and for correlation with the lidar remote measurements. The transition from northeasterly flow of Northern Hemispheric (NH) air on the northern side of the Intertropical Convergence Zone (ITCZ) to generally easterly flow of Southern Hemispheric (SH) air south of the ITCZ was accompanied by a significant decrease in O3, carbon monoxide, hydrocarbons, and aerosols and an increase in H2O. Trajectory analyses indicate that air north of the ITCZ came from Asia and/or the United States, while the air south of the ITCZ had a long residence time over the Pacific, perhaps originating over South America several weeks earlier. Air south of the South Pacific Convergence Zone (SPCZ) came rapidly from the west originating over Australia or Africa. This air had enhanced O3 and aerosols and an associated decrease in H2O. Average latitudinal and longitudinal distributions of O3 and H2O were constructed from the remote and in situ O3 and H2O data, and these distributions are compared with results from PEM-Tropics A conducted in August-October 1996. During PEM-Tropics B, low O3 air was found in the SH across the entire Pacific Basin at low latitudes. This was in strong contrast to the photochemically enhanced O3 levels found across the central and eastern Pacific low latitudes during PEM-Tropics A. Nine air mass types were identified for PEM-Tropics B based on their O3, aerosols, clouds, and potential vorticity characteristics. The data from each flight were binned by altitude according to air mass type, and these results showed the relative observational frequency of the different air masses as a function of altitude in seven regions over the Pacific. The average chemical composition of the major air mass types was determined from in situ measurements in the NH and SH, and these results provided insight into the origin, lifetime, and chemistry of the air in these regions. Copyright 2001 by the American Geophysical Union.

Published
2001

28. Factors controlling tropospheric O3, OH, NOx, and SO2 over the tropical Pacific during PEM-Tropics B

Author

Wang, Y, Liu, SC, Wine, PH, Davis, DD, Sandholm, ST, Atlas, EL, Avery, MA, Blake, DR, Blake, NJ, Brune, WH, Heikes, BG, Sachse, GW, Shetter, RE, Singh, HB, Talbot, RW, and Tan, D

Subjects
Meteorology & Atmospheric Sciences
Abstract

Observations over the tropical Pacific during the Pacific Exploratory Mission (PEM)-Tropics B experiment (March-April 1999) are analyzed. Concentrations of CO and long-lived nonmethane hydrocarbons in the region are significantly enhanced due to transport of pollutants from northern industrial continents. This pollutant import also enhances moderately O3 concentrations but not NOx concentrations. It therefore tends to depress OH concentrations over the tropical Pacific. These effects contrast to the large enhancements of O3 and NOx concentrations and the moderate increase of OH concentrations due to biomass burning outflow during the PEM-Tropics A experiment (September-October 1996). Observed CH3I concentrations, as in PEM-Tropics A, indicate that convective mass outflux in the middle and upper troposphere is largely independent of altitude over the tropical Pacific. Constraining a one-dimensiohal model with CH3I observations yields a 10-day timescale for convective turnover of the free troposphere, a factor of 2 faster than during PEM-Tropics A. Model simulated HO2, CH2O, H2O2, and CH3OOH concentrations are generally in agreement with observations. However, simulated OH concentrations are lower (∼25%) than observations above 6 km. Whereas models tend to overestimate previous field measurements, simulated HNO3 concentrations during PEM-Tropics B are too low (a factor of 2-4 below 6 km) compared to observations. Budget analyses indicate that chemical production of O3 accounts for only 50% of chemical loss; significant transport of O3 into the region appears to take place within the tropics. Convective transport of CH3OOH enhances the production of HOx and O3 in the upper troposphere, but this effect is offset by HOx loss due to the scavenging of H2O2. Convective transport and scavenging of reactive nitrogen species imply a necessary source of 0.4-1 Tg yr-1 of NOx in the free troposphere (above 4 km) over the tropics. A large fraction of the source could be from marine lightning. Oxidation of DMS transported by convection from the boundary layer could explain the observed free tropospheric SO2 concentrations over the tropical Pacific. This source of DMS due to convection, however, would imply in the model free tropospheric concentrations much higher than observed. The model overestimate cannot be reconciled using recent kinetics measurements of the DMS-OH adduct reaction at low pressures and temperatures and may reflect enhanced OH oxidation of DMS during convection. Copyright 2001 by the American Geophysical Union.

Published
2001

29. Chemical characteristics of air from different source regions during the second Pacific Exploratory Mission in the Tropics (PEM-Tropics B)

Author

Maloney, JC, Fuelberg, HE, Avery, MA, Crawford, JH, Blake, DR, Heikes, BG, Sachse, GW, Sandholm, ST, Singh, H, and Talbot, RW

Subjects
Meteorology & Atmospheric Sciences
Abstract

Ten-day backward trajectories are used to determine the origins of air parcels arriving at locations of airborne DC-8 chemical measurements during NASA's second Pacific Exploratory Mission in the Tropics B that was conducted during February-April 1999. Chemical data at sites where the trajectories had a common geographical origin and transport history are grouped together, and statistical measures of chemical characteristics are computed. Temporal changes in potential temperature are used to determine whether trajectories experienced a significant convective influence during the 10-day period. Trajectories describing the aged marine Southern Hemispheric category remain over the South Pacific Ocean during the 10-day period, and their corresponding chemical signature indicates very clean air. The category aged marine air in the Northern Hemisphere is found to be somewhat dirtier. Subdividing its trajectories based on the direction from which the air had traveled is found to be important in explaining the various chemical signatures. Similarly, long-range northern hemispheric trajectories passing over Asia are subdivided depending on whether they had followed a mostly zonal path, had originated near the Indian Ocean, or had originated near Central or South America and subsequently experienced a stratospheric influence. Results show that the chemical signatures of these subcategories are different from each other. The chemical signature of the southern hemispheric long-range transport category apparently exhibits the effects of pollution from Australia, southern Africa, and South America. Parcels originating over Central and northern South America are found to contain the strongest pollution signature of all categories, due to biomass burning and other sources. The convective category exhibits enhanced values of nitrogen species, probably due to emissions from lightning associated with the convection. Values of various species, including peroxides and acids, confirm that parcels were influenced by the removal of soluble gas and particle species due to precipitation. Finally, current results are compared with those from the first PEM-Tropics mission that was conducted in the same region during the southern hemispheric dry season (August-October 1996) when extensive biomass burning occurred. Results show that air samples during PEM-Tropics B are considerably cleaner than those of its dry season counterpart. Copyright 2001 by the American Geophysical Union.

Published
2001

30. Trace gas transport and scavenging in PEM-Tropics B South Pacific Convergence Zone convection

Author

Pickering, KE, Thompson, AM, Kim, H, DeCaria, AJ, Pfister, L, Kucsera, TL, Witte, JC, Avery, MA, Blake, DR, Crawford, JH, Heikes, BG, Sachse, GW, Sandholm, ST, and Talbot, RW

Subjects
Meteorology & Atmospheric Sciences
Abstract

Analysis of chemical transport on Flight 10 of the 1999 Pacific Exploratory Mission (PEM) Tropics B mission clarifies the role of the South Pacific Convergence Zone (SPCZ) in establishing ozone and other trace gas distributions in the southwestern tropical Pacific. The SPCZ is found to be a barrier to mixing in the lower troposphere but a mechanism for convective mixing of tropical boundary layer air from northeast of the SPCZ with upper tropospheric air arriving from the west. A two-dimensional cloud-resolving model is used to quantify three critical processes in global and regional transport: convective mixing, lightning NOx production, and wet scavenging of soluble species. Very low NO and O3 tropical boundary layer air from the northeastern side of the SPCZ entered the convective updrafts and was transported to the upper troposphere where it mixed with subtropical upper tropospheric air containing much larger NO and O3 mixing ratios that had arrived from Australia. Aircraft observations show that very little NO appears to have been produced by electrical discharges within the SPCZ convection. We estimate that at least 90% of the HNO3 and H2O2 that would have been in upper tropospheric cloud outflow had been removed during transport through the cloud. Lesser percentages are estimated for less soluble species (e.g.,

Published
2001

31. Chemical transport across the ITCZ in the central Pacific during an El Niño-Southern Oscillation cold phase event in March-April 1999

Author

Avery, MA, Westberg, DJ, Fuelberg, HE, Newell, RE, Anderson, BE, Vay, SA, Sachse, GW, and Blake, DR

Subjects
Meteorology & Atmospheric Sciences
Abstract

We examine interhemispheric transport processes that occurred over the central Pacific during the PEM-Tropics B mission (PTB) in March-April 1999 by correlating the observed distribution of chemical tracers with the prevailing and anomalous windfields. The Intertropical Convergence Zone (ITCZ) had a double structure during PTB, and interhemispheric mixing occurred in the equatorial region between ITCZ branches. The anomalously strong tropical easterly surface wind had a large northerly component across the equator in the central Pacific, causing transport of aged, polluted air into the Southern Hemisphere (SH) at altitudes below 4 km. Elevated concentrations of chemical tracers from the Northern Hemisphere (NH) measured south of the equator in the central Pacific during PTB may represent an upper limit because the coincidence of seasonal and cold phase ENSO conditions are optimum for this transport. Stronger and more consistent surface convergence between the northeasterly and southeasterly trade winds in the Southern Hemisphere (SH) resulted in more total convective activity in the SH branch of the ITCZ, at about 6° S. The middle troposphere between 4-7 km was a complex shear zone between prevailing northeasterly winds at low altitudes and southwesterly winds at higher altitudes. Persistent anomalous streamline patterns and the chemical tracer distribution show that during PTB most transport in the central Pacific was from SH to NH across the equator in the upper troposphere. Seasonal differences in source strength caused larger interhemispheric gradients of chemical tracers during PTB than during the complementary PEM-Tropics A mission in September-October 1996. Copyright 2001 by the American Geophysical Union.

Published
2001

32. Large-scale latitudinal and vertical distributions of NMHCs and selected halocarbons in the troposphere over the Pacific Ocean during the March-April 1999 Pacific Exploratory Mission (PEM-Tropics B)

Author

Blake, NJ, Blake, DR, Simpson, IJ, Lopez, JP, Johnston, NAC, Swanson, AL, Katzenstein, AS, Meinardi, S, Sive, BC, Colman, JJ, Atlas, E, Flocke, F, Vay, SA, Avery, MA, and Rowland, FS

Subjects
Meteorology & Atmospheric Sciences
Abstract

Nonmethane hydrocarbons (NMHCs) and selected halocarbons were measured in whole air samples collected over the remote Pacific Ocean during NASA's Global Tropospheric Experiment (GTE) Pacific Exploratory Mission-Tropics B (PEM-Tropics B) in March and early April 1999. The large-scale spatial distributions of NMHCs and C2Cl4 reveal a much more pronounced north-south interhemispheric gradient, with higher concentrations in the north and lower levels in the south, than for the late August to early October 1996 PEM-Tropics A experiment. Strong continental outflow and winter-long accumulation of pollutants led to seasonally high Northern Hemisphere trace gas levels during PEM-Tropics B. Observations of enhanced levels of Halon 1211 (from developing Asian nations such as the PRC) and CH3Cl (from SE Asian biomass burning) support a significant southern Asian influence at altitudes above 1 km and north of 10° N. By contrast, at low altitude over the North Pacific the dominance of urban/industrial tracers, combined with low levels of Halon 1211 and CH3Cl, indicate a greater influence from developed nations such as Japan, Europe, and North America. Penetration of air exhibiting aged northern hemisphere characteristics was frequently observed at low altitudes over the equatorial central and western Pacific south to ∼5° S. The relative lack of southern hemisphere biomass burning sources and the westerly position of the South Pacific convergence zone contributed to significantly lower PEM-Tropics B mixing ratios of the NMHCs and CH3Cl south of 10° S compared to PEM-Tropics A. Therefore the trace gas composition of the South Pacific troposphere was considerably more representative of minimally polluted tropospheric conditions during PEM-Tropics B. Copyright 2001 by the American Geophysical Union.

Published
2001

33. Comparative Analysis of Gait Speed Estimation Using Wideband and Narrowband Radars, Thermal Camera, and Motion Tracking Suit Technologies

Author

Amir-Hossein Karimi, Alexander Wong, Doojin Lee, Avery Ma, Jing Wei, George Shaker, A. Thatte, A. S. Rocha, Jennifer Boger, Plinio P. Morita, B. Fong, and Linlin Xu

Subjects
Computer science, Bandwidth (signal processing), 020206 networking & telecommunications, 020207 software engineering, Health Informatics, 02 engineering and technology, Computer Science Applications, law.invention, Gait speed, Preferred walking speed, Narrowband, Match moving, Artificial Intelligence, law, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Radar, Wideband, Simulation, Information Systems
Abstract

Research has shown that cognitive and physical functioning of older adults can be reflected in indicators such as walking speed. While changes in cognition, mobility, or health cause changes in gait speed, often gradual variations in walking speed go undetected until severe problems arise. Discrete clinical assessments during clinical consultations often fail to detect changes in day-to-day walking speeds and do not reflect walking speeds in everyday environments, where most of the mobility issues happen. In this paper, we compare four walking speed measurement technologies to a GAITRite mat (gold standard): (1) an ultra wideband radar (covering the band from 3.3 GHz to 10 GHz), (2) a narrow band 24-GHz radar (with a bandwidth of 250 MHz), (3) a perception Neuron Motion Tracking suit, and (4) a thermal camera. Data were collected in parallel using all sensors at the same time for 10 healthy adults for normal and slow walking paces. A comparison of the sensors indicates better performance at lower gait speeds, with offsets (when compared to GAITRite) between 0.1 and 20% for the ultra wideband radar, 1.9 and 17% for the narrowband radar, 0.1 and 38% for the thermal camera, and 1.7 and 38% for the suit. This paper supports the potential of unobtrusive radar-based sensors and thermal camera technologies for ambient autonomous gait speed monitoring for contextual, privacy-preserving monitoring of participants in the community.

Published
2020

34. Comparison of Gait Speed Estimation of Multiple Sensor-Based Technologies

Author

Adson S. Rocha, Alexander Wong, Jennifer Boger, Doojin Lee, Brandon Fong, Amir-Hossein Karimi, Plinio P. Morita, Avery Ma, George Shaker, Linlin Xu, Jing Wei, and Anjali Thatte

Subjects
Estimation, education.field_of_study, Computer science, Population, Real-time computing, Ocean Engineering, education, Multiple sensors, Gait speed
Abstract

In light of our aging population, there is an immediate need for non-obtrusive, continuous, and ubiquitous health monitoring technologies that will enable our population to age with a higher quality of life and independence. Research has demonstrated that gait indicators, such as walking speed, can reflect cognitive and physical functioning. However, gradual changes in such indicators usually go undetected until critical problems arise; being able to detect changes in indicators, such as gait deterioration, of older adults while in their home environments would enable clinicians to tailor more effective and personalized interventions by better understanding user behaviour in real-world settings. Real-world data is essential to enabling our healthcare system to act where patients most need help and to optimize the effect of designed eHealth solutions.

Published
2019

35. 63-3: Real-time Spatial-based Projector Resolution Enhancement

Author

Avery Ma, Mark Lamm, Paul Fieguth, Ahmed Gawish, and Alexander Wong

Subjects
Physics, Point spread function, business.industry, 05 social sciences, Resolution (electron density), 020207 software engineering, 02 engineering and technology, Superresolution, 050105 experimental psychology, law.invention, Optics, Projector, law, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, business
Published
2018

36. Deep Learning-Driven Depth from Defocus via Active Multispectral Quasi-Random Projections with Complex Subpatterns

Author

David A. Clausi, Alexander Wong, and Avery Ma

Subjects
High fidelity, Computer science, business.industry, Deep learning, Multispectral image, Point (geometry), Computer vision, Iterative reconstruction, Artificial intelligence, business, Projection (set theory), Convolutional neural network, Image (mathematics)
Abstract

A promising approach to depth from defocus (DfD) involves actively projecting a quasi-random point pattern onto an object and assessing the blurriness of the point projection as captured by a camera to recover the depth of the scene. Recently, it was found that the depth inference can be made not only faster but also more accurate by leveraging deep learning approaches to computationally model and predict depth based on the quasi-random point projections as captured by a camera. Motivated by the fact that deep learning techniques can automatically learn useful features from the captured image of the projection, in this paper we present an extension of this quasi-random projection approach to DfD by introducing the use of a new quasi-random projection pattern consisting of complex subpatterns instead of points. The design and choice of the subpattern used in the quasi-random projection is a key factor in the ability to achieve improved depth recovery with high fidelity. Experimental results using quasi-random projection patterns composed of a variety of non-conventional subpattern designs on complex surfaces showed that the use of complex subpatterns in the quasi-random projection pattern can significantly improve depth reconstruction quality compared to a point pattern.

Published
2018

37. Motion Detection in High Resolution Enhancement

Author

Mark Lamm, Avery Ma, Ahmed Gawish, Paul Fieguth, and Xiaodan Hu

Subjects
business.industry, Computer science, Gaussian, Resolution (electron density), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, High resolution, Motion detection, Motion (physics), law.invention, symbols.namesake, Superposition principle, Projector, Flow (mathematics), law, symbols, Computer vision, Artificial intelligence, business
Abstract

Shifted Superposition (SSPOS) is a resolution enhancement methodwhere apparent high-resolution content is displayed using a lowresolutionprojection system with an opto-mechanical shifter. WhileSSPOS-enhanced projectors have been showing promising resultsin still images, they still suffer from motion artifacts in video contents.Motivated by this, we present a novel approach to apparentprojector resolution enhancement for videos via motion-basedblurring module. We propose the use of a motion detection moduleand a blurring module to compensate for both SSPOS-resulted andnatural motion artifacts in the video content. To accomplish this,we combine both local and global motion estimation algorithms togenerate accurate dense flow fields. The detected motion regionsare enhanced using directional Gaussian filters. Preliminary resultsshow that the proposed method can produce accurate densemotion vectors and significantly reduce the artifacts in videos.

Published
2017

38. Depth from Defocus via Active Multispectral Quasi-random Point Projections using Deep Learning

Author

Avery Ma, Alexander Wong, and David A. Clausi

Subjects
Depth from defocus, business.industry, Depth map, Computer science, Deep learning, Multispectral image, RGB color model, Computer vision, Point (geometry), Artificial intelligence, Projection (set theory), business, Image (mathematics)
Abstract

A novel approach for inferring depth measurements via multispectralactive depth from defocus and deep learning has been designed,implemented, and successfully tested. The scene is activelyilluminated with a multispectral quasi-random point pattern,and a conventional RGB camera is used to acquire images of theprojected pattern. The projection points in the captured image ofthe projected pattern are analyzed using an ensemble of deep neuralnetworks to estimate the depth at each projection point. A finaldepth map is then reconstructed algorithmically based on the pointdepth estimates. Experiments using different test scenes with differentstructural characteristics show that the proposed approachcan produced improved depth maps compared to prior deep learningapproaches using monospectral projection patterns.

Published
2017

39. Depth from Defocus via Active Quasi-random Point Projections: A Deep Learning Approach

Author

David A. Clausi, Avery Ma, and Alexander Wong

Subjects
Computer science, business.industry, Deep learning, 3D reconstruction, Convolutional neural network, law.invention, Computer graphics, Projector, law, Measured depth, Point (geometry), Computer vision, Artificial intelligence, Projection (set theory), business
Abstract

Depth estimation plays an important role in many computer vision and computer graphics applications. Existing depth measurement techniques are still complex and restrictive. In this paper, we present a novel technique for inferring depth measurements via depth from defocus using active quasi-random point projection patterns. A quasi-random point projection pattern is projected onto the scene of interest, and each projection point in the image captured by a cellphone camera is analyzed using a deep learning model to estimate the depth at that point. The proposed method has a relatively simple setup, consisting of a camera and a projector, and enables depth inference from a single capture. We evaluate the proposed method both quantitatively and qualitatively and demonstrate strong potential for simple and efficient depth sensing.

Published
2017

40. Depth from Defocus via Active Quasi-random Point Projections

Author

Francis Li, Avery Ma, and Alexander Wong

Subjects
business.industry, Image (mathematics), law.invention, Compressed sensing, Projector, law, Measured depth, Calibration, Leverage (statistics), Point (geometry), Computer vision, Artificial intelligence, Projection (set theory), business, Mathematics
Abstract

Depth sensing has many practical applications in vision-relatedtasks. While many different depth measurement techniques existand depth camera technologies are constantly being advanced, activedepth sensing still rely on specialized hardware that are highlycomplex and costly. Motivated by this, we present a novel techniquefor inferring depth measurements via depth from defocus usingactive quasi-random point projection patterns. A quasi-randompoint projection pattern is projected onto the scene of interest, andeach projection point in the image captured by a camera is analysedusing a calibration model to estimate the depth at that point.The proposed method has a relatively simple setup, consisting of acamera and a projector, and enables depth inference from a singlecapture. Furthermore, the use of a quasi-random projection patterncan allow us to leverage compressive sensing theory to producefull depth maps in future applications. Experimental resultsshow the proposed system has strong potential for enabling activedepth sensing in a simple, efficient manner.

Published
2016

42. Column ozone and aerosol optical properties retrieved from direct solar irradiance measurements during SOLVE II

Author

William Swartz, Yee, Jh, Shetter, Re, Hall, Sr, Lefer, Bl, Livingston, Jm, Russell, Pb, Browell, Ev, Avery, Ma, EGU, Publication, Johns Hopkins University Applied Physics Laboratory [Laurel, MD] (APL), National Center for Atmospheric Research [Boulder] (NCAR), SRI International [Menlo Park] (SRI), NASA Ames Research Center (ARC), and NASA Headquarters

Subjects
[SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, [SDU.OCEAN] Sciences of the Universe [physics]/Ocean, Atmosphere
Abstract

International audience; Direct observation of the Sun at large solar zenith angles during the second SAGE III Ozone Loss and Validation Experiment (SOLVE II)/Validation of International Satellites and study of Ozone Loss (VINTERSOL) campaign by several instruments provided a rich dataset for the retrieval and analysis of line-of-sight column composition, intercomparison, and measurement validation. A flexible, multi-species spectral fitting technique is presented and applied to spectral solar irradiance measurements made by the NCAR Direct beam Irradiance Atmospheric Spectrometer (DIAS) on-board the NASA DC-8. The approach allows for the independent retrieval of O3, O2·O2, and aerosol optical properties, by constraining Rayleigh extinction. We examine the 19 January 2003 and 6 February 2003 flights and find very good agreement of O3 and O2·O2 retrievals with forward-modeling calculations, even at large solar zenith angles, where refraction is important. Intercomparisons of retrieved ozone and aerosol optical thickness with results from the Ames Airborne Tracking Sunphotometer (AATS-14) are summarized.

Published
2004

45. Microbial and chemical transformation studies of the bioactive marine sesquiterpenes (S)-(+)-curcuphenol and -curcudiol isolated from a deep reef collection of the Jamaican sponge Didiscus oxeata

Author

El Sayed, KA, Yousaf, M, Hamann, MT, Avery, MA, Kelly, M, Wipf, P, El Sayed, KA, Yousaf, M, Hamann, MT, Avery, MA, Kelly, M, and Wipf, P

Abstract

Microbial and chemical transformation studies of the marine sesquiterpene phenols (S)-(+)-curcuphenol (1) and (S)-(+)-curcudiol (2), isolated from the Jamaican sponge Didiscus oxeata, were accomplished. Preparative-scale fermentation of 1 with Kluyveromyces marxianus var. lactis (ATCC 2628) has resulted in the isolation of six new metabolites: (S)-(+)-15-hydroxycurcuphenol (3), (S)-(+)-12-hydroxycurcuphenol (4), (S)-(+)-12,15-dihydroxycurcuphenol (5), (S)-(+)-15-hydroxycurcuphenol-12-al (6), (S)-(+)-12-carboxy-10,11-dihydrocurcuphenol (7), and (S)-(+)-12-hydroxy-10,11-dihydrocurcuphenol (8). Fourteen-days incubation of 1 with Aspergillus alliaceus (NRRL 315) afforded the new compounds (S)-(+)-10β-hydroxycurcudiol (9), (S)-(+)-curcudiol-10-one (10), and (S)-(+)-4-[1-(2-hydroxy-4-methyl)phenyl)]pentanoic acid (11). Rhizopus arrhizus (ATCC 11145) and Rhodotorula glutinus (ATCC 15125) afforded (S)-curcuphenol-1α-D-glucopyranoside (12) and (S)-curcudiol-1α-D-glucopyranoside (13) when incubated for 6 and 8 days with 1, and 2, respectively. The absolute configuration of C(10) and C(11) of metabolites 7-9 was established by optical rotation computations. Reaction of 1 with NaNO2 and HCl afforded (S)-(+)-4-nitrocurcuphenol (14) and (S)-(+)-2-nitrocurcuphenol (15) in a 2:1 ratio. Acylation of 1 and 2 with isonicotinoyl chloride afforded the expected esters (S)-(+)-curcuphenol-1-O-isonicotinate (16) and (S)-(+)-curcudiol-1-O-isonicotinate (17), respectively. Curcuphenol (1) shows potent antimicrobial activity against Candida albicans, Cryptococcus neoformans, methicillin-resistant Staphylococcus aureus, and S. aureus with MIC and MFC/MBC ranges of 7.5-25 and 12.5-50 μg/mL, respectively. Compounds 1 and 3 also display in vitro antimalarial activity against Palsmodium falciparium (D6 clone) with MIC values of 3600 and 3800 ng/mL, respectively (selectivity index > 1.3). Both compounds were also active against P. falciparium (W2 clone) with MIC values of 1800 (S.I. >2.6) and 2900

Published
2002

47. alpha-lipoic acid is a weak dual PPARalpha/gamma agonist: an ester derivative with increased PPARalpha/gamma efficacy and antioxidant activity.

Author

Pershadsingh HA, Ho CI, Rajamani J, Lee C, Chittiboyina AG, Deshpande R, Kurtz TW, Chan JY, Avery MA, and Benson SC

Abstract

alpha-lipoic acid (LA), a potent antioxidant and free radical scavenger, has been reported to have insulin-sensitizing effects. In an attempt to improve the efficacy and antioxidant activity of LA, we synthesized and tested an ester derivative thereof: 6,8-bisacetylsulfanyloctanoic acid ethyl ester (LA-ester). Both LA and LA-ester were shown to be weak dual PPARalpha/gamma agonists, and to modulate the expression of PPAR-regulated genes, promote adipogenesis, and reduce cellular oxidative stress. Of interest, LA-ester markedly increased the maximum activity of both PPARalpha and PPARgamma, indicating increased efficacy. Both LA and LA-ester increased the expression of known PPAR a-regulated target genes (carnitine palmitoyltransferase 1A and acyl-CoA synthase) and PPARgamma-regulated target genes (fatty acid translocase/CD36, adipocyte fatty acid-binding protein, lipoprotein lipase) all of which are key regulators of lipid and glucose metabolism. LA-ester had a markedly higher capacity for reducing intracellular reactive oxygen species (cellular oxidative burden), compared to LA (30-fold vs. 2-fold reduction). Thus, LA, and perhaps to a greater extent LA-ester, may have insulin-sensitizing and possibly lipid-lowering effects, although further pre-clinical and clinical studies are required to confirm these claims. Esterification of the acidic moieties of LA may be a method for improving antioxidant activity and therapeutic efficacy of LA in the treatment of metabolic disorders known to be responsive to PPARalpha and PPARgamma ligands. [ABSTRACT FROM AUTHOR]

Published
2005

50. Structure-based design of novel melanin-concentrating hormone receptor-1 ligands based on saturated nitrogen-containing heterocycles.

Author

Helal MA, Chittiboyina AG, and Avery MA

Subjects
Animals, Ligands, Receptors, G-Protein-Coupled, Obesity drug therapy, Melanins, Receptors, Pituitary Hormone
Abstract

Melanin Concentrating Hormone (MCH) receptor is a G protein-coupled receptor (GPCR) with two subtypes R1 and R2. MCH-R1 is involved in the control of energy homeostasis, feeding behavior and body weight. Many studies have proved that administration of MCH-R1 antagonists significantly reduces food intake and causes weight loss in animal models. Herein, we report the optimization of our previously reported virtual screening hits into novel MCH-R1 ligands with chiral aliphatic nitrogen-containing scaffolds. The activity was improved from the micromolar range of the initial leads to 7 nM. We also disclose the first MCH-R1 ligands based on a diazaspiro[4.5]decane nucleus with sub-micromolar activity. A potent MCH-R1 antagonist with acceptable pharmacokinetic profile could represent a new hope for the management of obesity., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Ltd.)

Published
2023
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