NSF Air Quality Observatory:AQ Observatory Proposal

From Earth Science Information Partners (ESIP)
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Air Quality Observatory (AQO)


Proposal in a Nutshell:
Topic: Air Quality Observatory (AQO): Protoype based on Modular Service-based Infrastructure
IT Approach: Standard-based Data & Tools Sharing || Distributed Apps by Service Orchestration || Community work space
Use Cases:Realtime AQ Event Detection, Analysis and Response || Intracontinental Transport || Midwest Nitrate Mystery
Management:CAPITA/Unidata, Collaborators Team || Multi-agency and Project Particpation || ESIP Facilitation

Introduction

The multidisciplinary topic of Air Quality (air chemistry, meteorology, health science, ecology) is a national priority and it is pursued in diverse organizations (EPA, NOAA, NASA, Regional and State Agencies etc.) , each organization being both a producer and consumer of AQ-related information. This 'messy' information system is further complicated by the fact that the value chain that turns raw AQ data into 'actionable knowledge' for decision making has many steps; the data processing nodes are distributed among different organizations and many nodes include human 'processors'. While in the past the AQ science and management system has worked, these were hampered by the marginal support from a suitable information flow infrastructure. This problem of AQ information access, integration and delivery will be greatly exacerbated in the near future. The current revolution in both satellite remote sensing and surface air chemistry measurements delivers higher quality and much higher quantity of AQ data that need to assimilated into the AQ analysis systems. Air quality simulation and forecast models now also require more input verification, assimilation and augmentation. At the same time, use of AQ information by AQ managers at federal and state levels is is being transformed from command-and-control to more flexible 'weight-of-evidence' style. Added to these changes is the emergence a new cooperative spirit exemplified in the Global Earth Observation System of Systems (GEOSS, 60 + nation membership), where Air Quality is identified as one of the near-term opportunities for demonstrating the benefits of GEOSS. The increased supply and the demand for highly refined, just-in-time air quality information is a grand challenge for both information science and environmental science communities.

Fortunately, recent developments and convergence of various information technologies can close the gap between the AQ information supply-demand. A particularly value can be added by a web-based cyberinfrastructure that can benefit virtually all components of the information system.....Internet II , Cyber stuff in NSF, NASA, NOAA, EPA as well as industry....

The goal of this project is to build an infrastructure to support the science, management and education related to Air Quality. This goal is to be achieved through an Air Quality Observatory Based on a Modular Service-based Infrastructure. The AQO concept will be demonstrated s prototype Air Quality Observatory (AQO) will integrate AQ-relevant data, from surface, satellite and other sensors, provide data analysis tools for agile, analyst-configurable data processing. The users of the prototype will...

Infrastructure for Sharing AQ Data, Services and Tools

Extending Current ... Adding New.....

The Protoype Air Quality Observatory

Extending Current ... Adding New.....

The IT to be used in the proposed AQ Observatory fall into three categories:

(1) Data access and homogenization using standard data exchange protocols, e.g Web Coverage Service (OGC-WCS), Unidata THREDDS middleware for data discovery and use; and test beds that assure the data exchange is indeed interoperable, e.g. Unidata-OGC GALEON Interoperability Experiment/Network. [much more Unidata stuff here] [Stefan OGC W*S standards] [CAPITA data wrapping, virtual SQL query for point data]

(3) Networking. [Semantic mediation of distributed data and services] [How about Stefano Nativi's semantic mediation] [Jeff Ullman Mediator-as-view] [Purposeful pursuit of maximizing the Network Effect] [Value chains, value networks]

(2) The novel technology development will focus on the framework for building distributed data analysis applications using loosely coupled web service component. By these technologies, applications will be built by dynamically 'orchestrating' the information processing components. .....[to perform an array of user-defined processing applications]. The user-configurable applications will include Analysts Consoles for real-time monitoring and analysis of air pollution events, workflow programs for more elaborate processing and tools for intelligent multi-sensory data fusion. Most of these technologies are already part of the CAPITA DataFed access and analysis system, developed through support from NSF, NASA, EPA and other agencies. Similarly, and increasing array of web service components are now being offered various providers. However, a crucial missing piece is the testing of service interoperability and the development of the necessary service-adapters that will facilitate interoperability and service chaining...... [more on evolvable, fault tolerance web apps ..from Ken Goldman here] [also link to Unidata LEAD project here]

(4) Support for networked community interactions by creating web-based communication channels, aid cooperation through the sharing and reuse of multidisciplinary (air chemistry, meteorology, etc) AQ data, services and tools and by providing infrastructure support for group coordination among researchers, managers for achieving common objectives such as research, management and educational projects. [Unidata community support] The exploratory data analysis tools built on top of this infrastructure will seamlessly access these data, facilitate data integration and fusion operations and allow user-configuration of the analysis steps. ...[ including simple diagnostic AQ models driven by data in the Unidata system]. The resulting insights will help developing AQ management responses to the phenomenon and contribute to the scientific elucidation of this unusual phenomenon. [cyberinfrastructure-long end-to-end value chain, many players].

Cross-Cutting Use Cases for Prototype Demonstration

The proposed Air Quality Observatory prototype will demonstrate the benefits of the IIT through three use cases that are both integrating [cross-cutting], make a true contribution to AQ science and management and also place significant demand on the IIT. Use case selection driven by user needs: [letters EPA, LADCO, IGAC]. Not by coincidence, these topics are areas of active research in atmospheric chemistry and transport at CAPITA and other groups. The cases will be end-to end, connecting real data produces, mediators and well as decision makers. Prototype will be demonstration of seamless data discovery and access, flexible analysis tools and delivery.


1) Intercontinental Pollutant Transport. Sahara dust over the Southeast, Asian dust, pollution, [20+ JGR papers facilitated on the Asian Dust Events of April 1998 - now more can be done, faster and better with AQO] [letter from Terry Keating?]

2) Exceptional Events. The second AQO use case will be demonstration of real-time data access/processing/delivery/response system for Exceptional Events (EE). Exceptional AQ events include, smoke from natural and some anthropogenic fires, windblown dust events, volcanoes and also long range pollution transport events from sources such as other continents. A key feature of exceptional events is that they tend to be episodic with very high short-term concentrations. The AQO information prototype system needs will provide real-time characterization and near-term forecasting, that can be used for preventive action triggers, such as warnings to the public. Exceptional events are also important for long-term AQ management since EE samples can be flagged for exlosion from the National Ambient Air Quality Standards calculations. The IIT support by both state agencies and fedral gov...[need a para on the IIT support to global science e.g. IGAC projets]

3) Midwestern Nitrate Anomaly. Over the last two years, a mysterious pollutant source has caused the rise of pollutant levels in excess of the AQ standard over much of the Upper Midwest in the winter/spring. Nitrogen sources are suspected since a sharp rise in nitrate aerosol is a key air component. The phenomenon has eluded detection and quantification since the area was not monitored but recent intense sampling campaigns have implicated NOX and Ammonia release from agricultural fields during snow melt. This AQO use case will integrate and facilitate access to data from soil quality, agricultural fertilizer concentration and flow, snow chemistry, surface meteorology and air chemistry.

Observatory Guiding Principles, Governance, Key Personnel

Guiding Priciples: openness, networking, 'harnessing the winds' [of change in technology, attitudes]

The governance of the Observatory ... [Ben/Dave could use help here on governace]....

[everybody needs to show off their hats and feathers here, dont be too shy]The AQO project will be lead by Rudolf Husar and Ben Domenico. Husar is Professor of Mechanical engineering and director of the Center for Air Pollution Impact and Trend Analysis (CAPITA) and brings 30+ years of experience in AQ analysis and environmental informatics to AQO project. Ben Domenico, Deputy Director of Unidata. Since its inception in 1983, Domenico was an engine that turned Unidata into one of the earliest examples of successful cyberinfrastructure, providing data, tools and general building support to the meteorological research and education community. CAPITA and Unidata with their rich history and the experience of their staff will be the pillars of the AQO. The active members of the AQO network will be from the ranks of data providers, data users and value-adding mediators-analysts. The latter group will consist of existing AQ research projects funded by EPA, NASA, NOAA, NSF that have data, tools, or expertise to contribute to the shared AQO pool. The communication venue for the AQO will be through the Earth Science Information Partners (ESIP), as part of the Air Quality Cluster [agency/organization neutral].


Broader Impacts of the Air Quality Observatory

Impact on data providing agencies [letter from NASA?]

Impact on user agencies [letter from EPA, RPOs?]

Impact on the Earth Science Process [letter from IGAC?]

Activity Schedule

Infrastructure

Prototype

Use Cases

References Cited

Biographical Sketches

Collaborators and Other Personnel